- Core library
- body-fitted coordinates
- advanced chemistry
- GENTRA (particle tracking)
- multi-fluid turbulence
- advanced multi-phase
- advanced turbulence
- multi-block and fine-grid embedding
- two-phase flow
- FLAIR (air and heat flow in buildings)
- HOTBOX (electronics cooling)
- advanced numerical algorithms
- advance radiation
- virtual reality
- PLANT
- stresses in solids
- Chemical vapour deposition
- Furnace
- TACT: natural-draft cooling towers
- Miscellaneous special-purpose programs
- Power Condensers
- UnStructured PHOENICS - USP

** Core library**

Q1
100
3D Steady Heat Conduction In Cube

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ cartesian grid

Q1
102
3D Heat Cond, Slab-Wise Solver

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
103
3D Heat Cond. Gauss-Seidel Solver

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ uses Gauss-Seidel solver

___ cartesian grid

Q1
104
3D Unsteady Heat Cond. Thick Pipe

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

Q1
105
1D TRANS FOR H1 WITH FLOW + SOURCE

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
106
Rad Transf From Hot Wall,TGAS=CST

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
109
1D Trans Laminar Flame Propagation

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ chemical sources

___ cartesian grid

Q1
110
Trans Heat Conduction-Uniform Fin

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
111
Fin Non-Uniform Cross-Section

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
112
Fin Non-Uniform Conductivity

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
113
Fin Non-Uniform Specific Heat

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
114
Fin Non-Uniform Surface Coeff.

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
115
Pot. Flow; Perpendicular Plate

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ cartesian grid

Q1
116
Flow Over Double-Wedge Airfoil

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
117
Comp Flow Over Double-Wedge Airfoil

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
118
Transient Tunnel Heat Transfer

___ time-dependent

___ cylindrical grid

___ NX = 1

___ uses neighbour patch (name = NE...)

Q1
119
Wall Distance Distribution Within A Box

___ contains PHOTON USE commands for displaying results

___ computes WALL DISTANCE

___ computes WALL GAP

___ solves for LTLS

___ cartesian grid

Q1
120
Pipe Flow; Effect Of Prandtl No.

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

Q1
121
2DXZ Duct Flow; Effect Of Pr No.

___ NY = 1

___ steady parabolic flow

___ cartesian grid

Q1
122
Pipe Flow With Axial Free Convec

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

Q1
123
Water In A Heated Aluminium Pipe

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ material indices set via SPEDAT

Q1
124
Internally-Finned Pipe; Laminar

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ steady parabolic flow

Q1
125
Free Convection In Horizontal Pipe

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ steady parabolic flow

___ involves buoyancy

Q1
126
Pot. Flow; Inclined Plate

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for VELOCITY POTENTIAL

___ contains sources set by In-Form

___ cartesian grid

Q1
127
Irrotational Flow; Inclined Plate

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
128
F-1 Car; Balsa Wood Blank; Pot. Flow

___ solves for VELOCITY POTENTIAL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
129
Pot. Flow; In-Form-Created Source-Sink

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ contains sources set by In-Form

___ cartesian grid

Q1
130
Steady laminar rotating-disc flow

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ uses In-Form STORED command

Q1
133
Case 123 With Mercury, Not Water

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ material indices set via SPEDAT

Q1
134
Case 123 With Freon, Not Water

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ material indices set via SPEDAT

Q1
135
2D Laminar B-Layer On A Hot Wall

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
136
Free Convec From Hot Vertical Wall

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ involves buoyancy

___ In-Form sets the z-direction grid

___ cartesian grid

Q1
137
Free Convec From Plate In Cross Flow

___ steady parabolic flow

___ involves buoyancy

___ cartesian grid

Q1
138
3D Boundary Layer In A Corner

___ contains PHOTON USE commands for displaying results

___ steady parabolic flow

___ cartesian grid

Q1
140
Case 123 With Steel, Not Aluminium

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ material indices set via SPEDAT

Q1
141
Case 123 With Glass, Not Aluminium

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ material indices set via SPEDAT

Q1
142
Case 123 With LVEL Model

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ LVEL model

___ material indices set via SPEDAT

Q1
143
Case 123 In Parabolic Mode

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ computes heat transfer

___ material indices set via SPEDAT

Q1
144
Case 142, Parabolic, With Glass

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ LVEL model

___ material indices set via SPEDAT

Q1
145
Residence-Time Demonstration

___ time-dependent

___ NZ = 1

___ uses density linear in 1/Tabs

___ material indices set via SPEDAT

___ cartesian grid

Q1
150
Plane Jet;Mixing Length Model;Para

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

___ cartesian grid

Q1
151
Plane Jet;K-L Turbul Model;Para

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
152
Plane Jet; K-E Turbu Model; Para

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
153
Round Jet;Mixing Length Model;Para

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

Q1
154
Round Jet; K-L Turbu Model; Parab

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

Q1
155
Round Jet; K-E Turbu Model; Parab

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

Q1
156
Inclined Supersonic Flow In A Duct

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
157
2D CHANNEL FLOW - NEWTONIAN FLUID

___ NX = 1

___ cartesian grid

Q1
158
2D Flow In A Supersonic Diffuser

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
159
2D Sonic Underexpanded Round Jet

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ uses ideal-gas law for density

Q1
160
2D SUPERSONIC UNDEREXPANDED ROUND JET:16

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ uses ideal-gas law for density

Q1
161
2D Supersonic Rocket Exhaust Plume

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ uses ideal-gas law for density

Q1
162
gas-release with wind angle = 0.785398

___ contains Viewer USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains properties set by In-Form

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ uses In-Form BOX function

___ cartesian grid

Q1
163
Steady conduction in electrically-heated

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
170
Channel Flow; Mixing-Length Model

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

___ cartesian grid

Q1
171
Channel Flow K-L Model

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
172
Channel Flow K-EPS Model

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
173
Pipe Flow M-Length Turb Model;Para

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

Q1
174
Pipe Flow K-L Model;Parabolic

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

Q1
175
Pipe Flow K-E Turbul Model;Parab

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

Q1
176
Channel Flow K-EPS Turblnc. Model

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ cartesian grid

Q1
190
Boundary Layer Mixing-Length Model

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

___ cartesian grid

Q1
191
Boundary Layer K-L Turbulen Model

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
192
Boundary Layer K-E Turbulen Model

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
193
Wall Jet K-E Turbu Model; Parab

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
198
PHOENICS-Letter Masking, CHAM

___ contains PHOTON USE commands for displaying results

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ LVEL model

___ uses per-cent patch for masking

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
199
PHOENICS-Letter Masking, LOGO

___ contains PHOTON USE commands for displaying results

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ LVEL model

___ involves buoyancy

___ uses per-cent patch for masking

___ material indices set via SPEDAT

___ cartesian grid

Q1
200
PARALLEL PHOENICS-Letter Masking Feature

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ LVEL model

___ involves buoyancy

___ uses per-cent patch for masking

___ material indices set via SPEDAT

___ cartesian grid

Q1
210
1D Hydrostatic; X-Direction

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
213
Hydrostatic Equil In Annular Cav.

___ cylindrical grid

___ NZ = 1

___ involves buoyancy

Q1
215
1D Venturi, Y-Direction

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
217
1D 30-Degree X-Direction Diffuser

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
218
1D Y; Test of u1*r = constant

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
219
1D Y; test of u/r = constant

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
220
Free Vortex In 2 Dimensions

___ cylindrical grid

___ NZ = 1

Q1
221
Rectilinear Flow In Polar Quadrant

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

Q1
222
Jet Injection Into Polar Grid

___ cylindrical grid

___ NZ = 1

Q1
223
2 Quadrant Polar Wind Flow

___ cylindrical grid

___ NZ = 1

Q1
224
Polar Wind 360 Degree

___ cylindrical grid

___ NZ = 1

Q1
225
2D Flow Over A Cylinder Polar Grid

___ cylindrical grid

___ NZ = 1

Q1
226
2D Flow Over A Cylinder K-E Model

___ cylindrical grid

___ NZ = 1

Q1
227
Forced Vortex In A Pipe - Inviscid

___ cylindrical grid

Q1
228
Viscous Heating In Couette Flow

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
229
Viscous Heating In An Annulus

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
230
Decay Of Turbulence. K-Epsilon Model

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
233
2DY-Directed Free Vortex Test

___ cylindrical grid

___ NZ = 1

Q1
234
De Laval Nozzle X Direction

___ NY = 1

___ NZ = 1

___ uses isentropic-gas law for density

___ cartesian grid

Q1
237
Shallow Sample Cup In Crosswind

___ cylindrical grid

Q1
238
Shallow Sample Cup In Crosswind

___ cylindrical grid

Q1
240
2D Channel Flow

___ NX = 1

___ cartesian grid

Q1
241
2D Restricted Inlet/Outlet Channel

___ NX = 1

___ cartesian grid

Q1
242
Supersonic Flow In Duct

___ NZ = 1

___ uses isentropic-gas law for density

___ cartesian grid

Q1
243
Transonic Flow In A Curved Duct

___ cylindrical grid

___ NZ = 1

___ uses isentropic-gas law for density

Q1
244
Heat Transfer In Pipe; Pr No Effect

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

Q1
245
Heat Trans In Pipe;Pr.Effect;WHL-P

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

Q1
246
Abrupt Enlargement At Pipe Entra

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

Q1
247
Pipe With Internal Restriction

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

Q1
248
Area Restriction With Inlet Swirl

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

Q1
249
Square Cavity With Moving Lid

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses In-Form STORED command

___ cartesian grid

Q1
250
2D Low-Re Flow Past A Plate

___ NX = 1

___ cartesian grid

Q1
251
Laminar Free Convection In Cavity

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ involves buoyancy

___ uses EXPERT dynamic relaxation

___ cartesian grid

Q1
252
Steady Free-Convection In Annular Cavity

___ cylindrical grid

___ NZ = 1

___ involves buoyancy

Q1
253
Benard Convection

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ involves buoyancy

___ uses conjugate-gradient solver

___ cartesian grid

Q1
254
Free Convection Between Vertical Plates

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
255
Potential Flow over Perpendicular Plate

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ darcy flow in porous medium

___ cartesian grid

Q1
256
Steady Free-Convec In Calandria

___ cylindrical grid

___ NZ = 1

___ involves buoyancy

Q1
257
Laminar Free Convection In Cavity

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ involves buoyancy

___ uses EXPERT dynamic relaxation

___ uses conjugate-gradient solver

___ cartesian grid

Q1
260
Conjugate Heat Transf In Air Flow

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ uses volumetric block correction

___ cartesian grid

Q1
261
Conjugate Heat Transf In Air Flow

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ uses volumetric block correction

___ cartesian grid

Q1
262
Conjugate Heat Transfer Problem 2

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ uses volumetric block correction

___ cartesian grid

Q1
263
Conjugate Heat Transfer Problem 3

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ uses volumetric block correction

___ cartesian grid

Q1
264
Conjugate Heat Transfer Problem 4

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ uses volumetric block correction

___ cartesian grid

Q1
265
Cooling Of A Heated Block (1

___ NY = 1

___ uses volumetric block correction

___ cartesian grid

Q1
266
Cooling Of A Heated Block (2

___ NY = 1

___ uses volumetric block correction

___ cartesian grid

Q1
270
Impinging Jet In Rectangular Grid

___ cartesian grid

Q1
271
Flow Around A Chimney

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
272
Steady Journal-Bearing Flow, 3D

___ solves for LTLS

___ computes WALL DISTANCE

___ cartesian grid

Q1
273
Mixing At A T-Junction

___ cylindrical grid

Q1
274
3D Nav.Sto.Flow Around A Moving Van

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
275
"Darcy Flow" Around A Moving Van

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ darcy flow in porous medium

___ uses conjugate-gradient solver

___ material indices set via SPEDAT

___ cartesian grid

Q1
276
Potential Flow Around A Moving Van

___ contains PHOTON USE commands for displaying results

___ solves for VELOCITY POTENTIAL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
277
Cubical Cavity With Moving Lid

___ contains PHOTON USE commands for displaying results

___ uses EXPERT dynamic relaxation

___ uses conjugate-gradient solver

___ cartesian grid

Q1
278
Laminar Natural Convec In A Cavity

___ involves buoyancy

___ uses conjugate-gradient solver

___ cartesian grid

Q1
279
Convective Cooling Of Radial Fin

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ involves buoyancy

Q1
280
Turbulent Pipe Flow; Pr. No. Effect

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

Q1
281
Ricou's Jet In Cylindrical Chamber

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ Prndtl Mixing-Length model

___ Two-scale high-Re model

Q1
289
LVEL model; EGWF= T

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
290
KE-EPS model; Re = 4.5E+04; EGWF= T

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
291
Cav. Flow K-EPS Turbu Model;Ellip

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
292
2D Pipe Flow K-E Model; Re=8.327646E+04

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

Q1
293
Simple Labyrinth; Q1 Made By Menu

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
294
Simple Labyrinth; Heavy Relaxation

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
295
Simple Labyrinth; Expert Relaxation

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses EXPERT dynamic relaxation

___ material indices set via SPEDAT

___ cartesian grid

Q1
296
2D Turbulent Free Convection In A Cavity

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ uses density linear in 1/Tabs

___ Lam=Bremhorst-Re model

___ involves buoyancy

___ cartesian grid

Q1
297
2D Rayleigh-Benard Convection

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ cartesian grid

Q1
298
Test case for rotating grid

___ cylindrical grid

___ uses In-Form STORED command

___ contains initial values set by In-Form

Q1
300
Backward-Facing STP KE MDL Y-X POS

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
320
Temporal Decay Of Turbu; K-E Model

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
321
Pressure Waves From Valve Closure

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
322
Laminar Flow In Pipe-Transient

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

Q1
323
Central Obstacle In Laminar Pipe

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

Q1
324
Pipe; Outlet Restriction Added

___ time-dependent

___ cylindrical grid

___ NX = 1

Q1
325
Obstacle,Outlet Restriction And Cart

___ time-dependent

___ NX = 1

___ cartesian grid

Q1
326
Vortex Near A Moving Wall

___ time-dependent

___ NZ = 1

___ cartesian grid

Q1
327
0D Piston-In-Cylinder Study

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses isentropic-gas law for density

___ cartesian grid

Q1
328
1D Piston-With-Bowl Study

___ time-dependent

___ NX = 1

___ NY = 1

___ uses isentropic-gas law for density

___ cartesian grid

Q1
329
1D Piston With Bowl; High Speed

___ time-dependent

___ NX = 1

___ NY = 1

___ uses isentropic-gas law for density

___ cartesian grid

Q1
330
Case 1 AXI-Symmetric Piston Bowl

___ time-dependent

___ cylindrical grid

___ NX = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
331
Two Stroke Loop Scavenge Cycle 3D

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ uses ideal-gas law for density

Q1
332
Shock Tube

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
333
Shock Tube With 2D Obstacle

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
334
Spherical Blast Wave

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
335
1D Transient Shock Tube

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ use special GROUND convgr

___ cartesian grid

Q1
340
Transient Free Convection In A Box

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ involves buoyancy

___ special print-out activated via SPEDAT

___ cartesian grid

Q1
341
Rayleigh-Taylor Instability

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ involves buoyancy

___ cartesian grid

Q1
342
HYD. EQ. In XY Tank With Blockages

___ time-dependent

___ NZ = 1

___ cartesian grid

Q1
343
HYD. EQ. In YZ Tank With Blockages

___ time-dependent

___ NX = 1

___ cartesian grid

Q1
344
2DTrans Buoyant Flow Of Melt In A Ladle

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ involves buoyancy

Q1
345
3D Laminar Free Convection In A Cavity

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ involves buoyancy

___ contains properties set by In-Form

___ uses In-Form STORED command

___ In-Form STORED command uses SUM(

___ cartesian grid

Q1
350
Porous Plate (K-E

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ material indices set via SPEDAT

___ plate porosity set via SPEDAT

___ cartesian grid

Q1
351
Porous Plate (Laminar

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ plate porosity set via SPEDAT

___ cartesian grid

Q1
360
MOFOR by In-Form: 2D motion of 2 objects

___ contains PHOTON USE commands for displaying results

___ contains Viewer USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses MOFOR

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
362
Slabwise-averaging and display

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ computes heat transfer

___ In-Form used to "MAKE" variables

___ In-Form STORED command uses SUM(

___ uses In-Form STORED command

___ special print-out activated via SPEDAT

___ material indices set via SPEDAT

___ cartesian grid

Q1
363
Slabwise-averaging and display

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ computes heat transfer

___ In-Form used to "MAKE" variables

___ uses In-Form STORED command

___ special print-out activated via SPEDAT

___ material indices set via SPEDAT

___ cartesian grid

Q1
364
ARR In-Form function

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses ideal-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains properties set by In-Form

___ contains sources set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
365
MOFOR by In-Form: Underwater navigation

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ uses MOFOR

___ uses In-Form STORED command

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
366
In-Form equivalent of library case 118

___ time-dependent

___ cylindrical grid

___ NX = 1

___ contains sources set by In-Form

Q1
367
In-Form equivalent of library case 790

___ NY = 1

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
368
In-Form equivalent of library case 791

___ time-dependent

___ NY = 1

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
369
Rotating coordinates

___ NZ = 1

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ cartesian grid

Q1
370
MOFOR - In-Form: BOX linear motion in Z

___ time-dependent

___ NX = 1

___ NY = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
371
MOFOR - In-Form: BOX linear motion in Y

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
372
MOFOR - In-Form: BOX linear motion in X-

___ time-dependent

___ NY = 1

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
373
MOFOR - In-Form: BOX linear motion X-dir

___ time-dependent

___ NX = 1

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
374
Rotating coordinates

___ NZ = 1

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ cartesian grid

Q1
375
MOFOR/In-Form: diagonal motion in XY

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
376
MOFOR/In-Form: diagonal motion in YZ

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
377
MOFOR/In-Form: diagonal motion in XZ

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
378
MOFOR/In-Form: diagonal motion in XY

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
379
MOFOR/In-Form: diagonal motion in YZ

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
380
MOFOR/In-Form: diagonal motion in XZ

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
381
MOFOR by In-Form,CYLINDR object rotation

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses MOFOR

___ material indices set via SPEDAT

___ cartesian grid

Q1
382
MOFOR by In-Form: BOX object rotation

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses MOFOR

___ material indices set via SPEDAT

___ cartesian grid

Q1
383
Box-shaped In-Form object

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ uses In-Form BOX function

___ cartesian grid

Q1
384
ellipsoid-shaped In-Form object

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ cartesian grid

Q1
385
sub-grid objects POINT, LINE and PLANE

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ cartesian grid

Q1
386
sphere with centre at origin

___ uses In-Form SPHERE function

___ uses In-Form STORED command

___ cartesian grid

Q1
387
patch-limited objects

___ material indices set via SPEDAT

___ uses In-Form SPHERE function

___ cartesian grid

Q1
401
Oil tanker rupture; warm-water layer eff

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ uses In-Form STORED command

Q1
402
Oil tanker rupture - Turbulent plume

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ contains sources set by In-Form

___ uses In-Form STORED command

Q1
413
Transient Radiation From Fin

___ time-dependent

___ NY = 1

___ NZ = 1

___ star-name patch: source=CO*PHI*NAME**VAL

___ contains lines to be read by EARTH via READQ1

___ cartesian grid

Q1
414
X-Spatial Decay Of Turbu, K-Omega

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
415
X-Spatial Decay Of Turbu, K-Vosq

___ NY = 1

___ NZ = 1

___ star-name patch: source=CO*PHI*NAME**VAL

___ cartesian grid

Q1
419
Swirling Flow Test, Inlet U1=1m/s

___ cylindrical grid

Q1
426
1DX Coal Combustion; Secondary Air

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
427
2DYZ Coal-Particle Combustion

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
429
1DY Oil-Droplet Combustion

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
434
0D Transient Reaction Rate

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
435
Gala Example 1D

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
436
Filling Of A 2d Duct - HOL Method

___ NY = 1

___ cartesian grid

Q1
437
Filling Of A 2D Duct - HOL Method

___ NX = 1

___ cartesian grid

Q1
439
Backward-Facing Step KE Mod YZ Pos

___ NX = 1

___ uses ideal-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
448
Vertical Chamber

___ cylindrical grid

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

Q1
450
Rigid-Surface Flow, 3D Incompress

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
451
Rigid-Surface Flow, 3D Compress

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
452
Free Surface Flow, 3D Surface

___ contains PHOTON USE commands for displaying results

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
453
Free Surface Flow, 2D Incompressi

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
454
Free Surface Flow, 2D Shllw Water

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
455
Free Surface Flow, 3D, Submerged

___ contains PHOTON USE commands for displaying results

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
456
Rigid Surface, 3D, Submerged

___ contains PHOTON USE commands for displaying results

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
457
Variable Porosity, 2D

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
458
Variable Porosity, 3D

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
469
Temperature Solution Demonstration

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
470
Shallow-Water Waves After Exit Shut

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
471
Waves After Shutting Inlet And Outlet

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
472
Flow In Lake After Wind Stops

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
473
Non Unif.Depth Channel.Out.Closure

___ time-dependent

___ NY = 1

___ cartesian grid

Q1
474
Pollutant Flow In A Tidal Harbour

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
476
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
477
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
478
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
479
No title has been set for this run.

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
480
1DX Coal-Particle Combustion

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
481
1D Coal-Particle Combustion

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
482
1DZ Coal-Particle Combustion

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
483
1DX Coal-Particle Comb. Equvel=T

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ both phases have equal velocity components

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
484
1DY Coal-Particle Comb. Equvel=T

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ two-phase flow

___ both phases have equal velocity components

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
485
1DZ Coal-Particle Comb. Equvel=T

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ two-phase flow

___ both phases have equal velocity components

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
486
Test Of Whole Field Solver

___ cylindrical grid

Q1
487
Transient Dye Injection Into Steady Flow

___ time-dependent

___ cylindrical grid

Q1
488
Wave Propagation - 1D Scalar

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
489
Wave Propagation - 1D Scalar

___ time-dependent

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
490
Wave Propagation - 1D Scalar

___ time-dependent

___ NX = 1

___ NY = 1

___ cartesian grid

Q1
491
Simple chemical reaction (SCRS

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses SCRS option for density

___ chemical sources with eddy-break-up model

___ cartesian grid

Q1
492
Idealised Gas-Turbine Combustion Chamber

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains lines to be read by EARTH via READQ1

___ contains properties set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ uses LONGNAME

___ material indices set via SPEDAT

Q1
493
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
494
3D Radiant Heat Transfer In A Box

___ computes heat transfer

___ cartesian grid

Q1
495
Radiative Transfer + Heat Source

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
498
X-D Radiative Equilibrium In Slab

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
500
1D Laminar Pipe Flow And Heat Trans

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ uses fully-developed-flow option

Q1
501
1D Laminar Pipe Flow And Mass Trans

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ uses fully-developed-flow option

Q1
502
1D Turb Pipe Flow + Heat Trans

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ uses fully-developed-flow option

Q1
503
2D Laminar Duct Flow And Heat Trans

___ NZ = 1

___ uses fully-developed-flow option

___ cartesian grid

Q1
504
2D Turb Duct Flow And Heat Trans

___ NZ = 1

___ uses fully-developed-flow option

___ cartesian grid

Q1
505
1D Lam Couette Flow And Heat Trans

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ NZ = 1

___ cartesian grid

Q1
506
1D Laminar MHD Channel Flow

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ uses fully-developed-flow option

___ cartesian grid

Q1
507
1D Laminar MHD Couette Flow

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ NZ = 1

___ cartesian grid

Q1
510
Power-Law Fluid FD Lam Pipe Flow

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ uses fully-developed-flow option

Q1
511
Bingham-Fluid FD Lam Pipe Flow

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ uses fully-developed-flow option

Q1
512
Power-Law Fluid_2D FD Duct Flow

___ NZ = 1

___ uses fully-developed-flow option

___ cartesian grid

Q1
513
Powre-Law_2D Fluid Ellip. Lam Pipe

___ cylindrical grid

___ NX = 1

Q1
514
Bingham Fluid_2D Ellip. Lam Pipe

___ cylindrical grid

___ NX = 1

Q1
520
Link Test In YZ Plane; 2 Dummy Cells

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ uses link patch

___ cartesian grid

Q1
521
Y-Direction Link In XY Plane

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ uses link patch

Q1
522
Y-Direction Link In XY; Xcycle=t

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ uses link patch

Q1
523
East-West Link Test In X-Y Plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses link patch

___ cartesian grid

Q1
524
Duct With 2 Side Branches;XYplane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses link patch

___ cartesian grid

Q1
525
Multi-Blocking By Shear, XY Plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses link patch

___ material indices set via SPEDAT

___ cartesian grid

Q1
526
Rotating Inner And Fixed Outer Grid

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NZ = 1

___ uses link patch

Q1
530
Influences On Convergence; Steady

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
531
Influences On Convergence; Transient

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
550
1D Radiant Heat Transfre In A Box

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
551
2D Radiant Heat Transfer In A Box

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
552
3D Radiant Heat Transfer In A Box

___ contains PHOTON USE commands for displaying results

___ cartesian grid

Q1
553
3D Radiant Heat Transfer In A Box

___ contains PHOTON USE commands for displaying results

___ cartesian grid

Q1
565
Air-Cooled Electric-Motor Sector

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ computes heat transfer

___ material indices set via SPEDAT

Q1
566
3D Steady Heat Conduction In Cube

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ star-name patch: source=CO*PHI*NAME**VAL

___ material indices set via SPEDAT

___ cartesian grid

Q1
567
GXTIM Example

___ time-dependent

___ NX = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
568
Expert Test-The Driven-Cavity Flow

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses In-Form STORED command

___ cartesian grid

Q1
571
GAS_AT_REST._SUDDEN_SUSTAINED_ENTRY_FROM

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
572
Rect Cav With Moving Lid;Heat Tran

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
575
2D Channel Flow Newtonian Fluid

___ NX = 1

___ cartesian grid

Q1
576
2D Channel Flow;Non Newtonian Fluid

___ NX = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
577
Counter Flow Demo

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ material indices set via SPEDAT

Q1
601
3D Heat Cond. Conjug.Grad. Solver

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ uses conjugate-gradient solver

___ cartesian grid

Q1
602
Pot. Flow Around Van; CNGR. Solver

___ contains PHOTON USE commands for displaying results

___ solves for VELOCITY POTENTIAL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses conjugate-gradient solver

___ material indices set via SPEDAT

___ cartesian grid

Q1
603
Pot. Flow; Perp. Plate; Conj.GR.

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ uses conjugate-gradient solver

___ cartesian grid

Q1
604
Diffuser ; Effect Of Prandtl No.

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

Q1
605
Fully-Developed Flow; K-EPS Model

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
606
Buoyant Plume in tunnel, 1.0E+06 Cells

___ contains PHOTON USE commands for displaying results

___ steady parabolic flow

___ involves buoyancy

___ cartesian grid

Q1
607
Flow Around A Group Of Buildings

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses conjugate-gradient solver

___ material indices set via SPEDAT

___ cartesian grid

Q1
608
Free Convectn And Radiatn Heat Sink

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ computes heat transfer

___ involves buoyancy

___ star-name patch: source=CO*PHI*NAME**VAL

___ uses conjugate-gradient solver

___ material indices set via SPEDAT

___ cartesian grid

Q1
610
2D Laminar Air-Water Bound. Layer

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
611
Secondary Flow In Curved Duct

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

Q1
612
Conduction In Cube; Expert

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ cartesian grid

Q1
613
Heat Sources; Air-Cooled Box; EGWF

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ computes heat transfer

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
614
Flow Of Glass In T-shaped Channel

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
615
Potl. 2D Flow; Source-Sink Pair

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ uses conjugate-gradient solver

___ cartesian grid

Q1
616
Potl. 2D Flow; Source-Sink Pair

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ uses conjugate-gradient solver

Q1
617
1D Ignition And Extinction

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ chemical sources

___ cartesian grid

Q1
620
Case 100; Various Solver Options

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ cartesian grid

Q1
621
Simulation of a Labyrinth Flow

___ NY = 1

___ computes heat transfer

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
622
Duplication in VR-Editor

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
623
Flow between cylinderical obstacles

___ NY = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
624
Array and group settings

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
625
Fans and Inlets

___ NY = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
626
Jetpump

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
627
Flow simulation in a pipe

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
628
Flow around buildings

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
629
Flow over heated bricks

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
630
Introducing contaminants

___ NY = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
631
Editing properties

___ NY = 1

___ computes heat transfer

___ uses ideal-gas law for density

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
632
Duct at 30 degree to the horizontal

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
633
Transient Heat Conduction

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ cartesian grid

Q1
634
Transient Heat Conduction

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
635
Complete Diaphragm rupture

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
636
Partial Diaphragm rupture

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
637
2D Axi-Symmetrical Jet Pump

___ cylindrical grid

___ NX = 1

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
638
Swirling flow through an orifice plate

___ cylindrical grid

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
639
Swirling flow through an orifice plate

___ cylindrical grid

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
640
A duct flow (Immersol)

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
641
Electronic box

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
642
Combustion SCRS

___ cylindrical grid

___ uses SCRS option for density

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ chemical sources with eddy-break-up model

___ material indices set via SPEDAT

Q1
643
ESCRS - Fast Chemistry

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
644
Combustion CHEMKIN

___ cylindrical grid

___ computes heat transfer

___ uses CHEMKIN option for density

___ Constant-effective-viscosity model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
645
KE-EPS model; Re = 45000.00; EGWF= T

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
646
RNG model; Re = 45000.00; EGWF= T

___ NZ = 1

___ RNG high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
647
KECHEN model; Re = 45000.00; EGWF= T

___ NZ = 1

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
648
Simple Labyrinth; LVEL model

___ NZ = 1

___ solves for LTLS

___ computes WALL GAP

___ computes WALL DISTANCE

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
649
2PHS model; Re = 45000.00; EGWF= T

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
651
Boiling in a pipe (IPSA)

___ cylindrical grid

___ NX = 1

___ two-phase flow

___ Chen-Kim high-Re model

___ involves buoyancy

Q1
652
Flow over a backward-facing step (SEM)

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
653
Water pouring into a bund

___ time-dependent

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
654
Oil penetrating into water

___ NX = 1

___ Chen-Kim high-Re model

___ involves buoyancy

___ cartesian grid

Q1
655
Flow in a separator ASM

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
656
Shallow water IN TURNAROUND DUCT: B

___ NX = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
657
A whirlpool in a shallow pond

___ NX = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
658
Inform: Inlet boundary layer profile

___ NY = 1

___ MMK high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
659
2D Warehouse Example

___ NY = 1

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
660
Inlet flow normal to cylinder surface

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
661
Simulation of a Labyrinth Flow

___ NY = 1

___ computes heat transfer

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
662
No title has been set for this run.

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
663
No title has been set for this run.

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
664
No title has been set for this run.

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
665
Flow around buildings

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
667
3D Nav.Sto.Flow Around A Moving Van

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ contains sources set by In-Form

___ cartesian grid

Q1
668
My first flow simulation

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
669
My first flow simulation

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
670
My first flow simulation

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
671
Linked Angled-in objects

___ NY = 1

___ computes heat transfer

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
672
3D Nav.Sto.Flow Around A Moving Van

___ contains Viewer USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ In-Form used to "MAKE" variables

___ In-Form STORED command uses SUM(

___ special print-out activated via SPEDAT

___ material indices set via SPEDAT

___ cartesian grid

Q1
673
Wind and Solar Heating Example

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ star-name patch: source=CO*PHI*NAME**VAL

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
674
Wind and Solar Heating Example

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ star-name patch: source=CO*PHI*NAME**VAL

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
675
Flow through a Forest

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
690
KE-EPS model; Re = 4.5E+04; EGWF= T

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
700
In-Form equivalent of PLANT case Z100

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains properties set by In-Form

___ uses LONGNAME

___ cartesian grid

Q1
701
In-Form equivalent of PLANT case Z101

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ contains properties set by In-Form

___ uses LONGNAME

___ uses In-Form STORED command

___ cartesian grid

Q1
702
In-Form equivalent of PLANT case Z102

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
703
Extract fin.-vol. equations and diffusio

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains properties set by In-Form

___ uses LONGNAME

___ uses In-Form STORED command

___ cartesian grid

Q1
704
2D UNSTEADY DIFFUSION PROBLEM:Z104

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses conjugate-gradient solver

___ contains initial values set by In-Form

___ time-dependent source set by In-Form

___ cartesian grid

Q1
705
In-Form equivalent of PLANT case Z106

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
706
In-Form equivalent of PLANT case Z106

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
707
decay of temp. profile in metal slab

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
708
In-Form equivalent of PLANT case Z108

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ cartesian grid

Q1
709
In-Form equivalent of simplified PLANT c

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
710
3D SHELL-AND-TUBE HEAT EXCHANGER:110

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ cartesian grid

Q1
711
In-Form equivalent of PLANT case Z111

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ time-dependent source set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
712
In-Form equivalent of PLANT case Z112

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
713
In-Form equivalent of PLANT case Z113

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains properties set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
717
In-Form equivalent of PLANT case Z117

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
718
In-Form equivalent of PLANT case Z118

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
719
In-Form equivalent of PLANT case Z119

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ time-dependent source set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
720
In-Form equivalent of PLANT case Z120

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
721
In-Form equivalent of PLANT case Z604

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
722
In-Form equivalent of PLANT case Z122

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ cartesian grid

Q1
723
In-Form equivalent of PLANT case Z123

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ contains properties set by In-Form

Q1
724
In-Form equivalent of PLANT case Z124

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ contains properties set by In-Form

___ contains initial values set by In-Form

___ contains sources set by In-Form

Q1
725
In-Form equivalent of PLANT case Z125

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ NY = 1

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains properties set by In-Form

___ cartesian grid

Q1
726
In-Form equivalent of PLANT case Z126

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ contains sources set by In-Form

___ cartesian grid

Q1
727
In-Form equivalent of PLANT case Z127

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
729
In-Form equivalent of PLANT case Z129

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
731
In-Form equivalent of PLANT case Z131

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
733
In-Form equivalent of PLANT case Z133

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ uses SCRS option for density

___ contains sources set by In-Form

Q1
734
In-Form equivalent of PLANT case Z134

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
735
In-Form equivalent of PLANT case Z135

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ cartesian grid

Q1
737
CAREY Oscillating water column

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ time-dependent source set by In-Form

___ uses In-Form STORED command

___ In-Form used to "MAKE" variables

___ contains properties set by In-Form

___ special print-out activated via SPEDAT

___ cartesian grid

Q1
738
In-Form equivalent of PLANT case Z138

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
739
In-Form equivalent of PLANT case Z139

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
740
In-Form equivalent of PLANT case Z140

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ contains properties set by In-Form

___ uses LONGNAME

Q1
741
In-Form equivalent of PLANT case Z141

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains properties set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
742
In-Form equivalent of PLANT case Z142

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
743
p 1.0E+10 1.0E+05 u 1.0E+10 1.0E+10

___ time-dependent

___ NZ = 1

___ solves for VELOCITY POTENTIAL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ special print-out activated via SPEDAT

___ material indices set via SPEDAT

___ cartesian grid

Q1
745
Non-uniform moving-wall velocity

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
746
Heat Transfer In Channel By In-Form.

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ cartesian grid

Q1
747
Injection In Channel By In-Form.

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ cartesian grid

Q1
748
Wall-functions By In-Form.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
749
Shapes made bu sphere; caseno=1

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ uses In-Form SPHERE function

___ material indices set via SPEDAT

___ cartesian grid

Q1
750
In-Form equivalent of PLANT case Z244

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ contains sources set by In-Form

Q1
751
Steady lam. fl. propagation :751

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
752
In-Form equivalent of PLANT case Z132

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
753
Flow straightened by vanes + resistances

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ cartesian grid

Q1
754
Simple shapes by box In-Form object

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ computes heat transfer

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ uses In-Form BOX function

___ material indices set via SPEDAT

___ cartesian grid

Q1
756
Mixing caused by rotating paddle: 756

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ contains properties set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
757
Flow in stirred 3D vessel: 757

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ contains properties set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
758
Three examples of initialization :758

___ contains PHOTON USE commands for displaying results

___ contains initial values set by In-Form

___ cartesian grid

Q1
759
CO-LOCATED VELOCITY CALCULATION:759

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
760
In-Form Equivalent Of PLANT Case Z101

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ contains properties set by In-Form

___ uses LONGNAME

___ uses In-Form STORED command

___ cartesian grid

Q1
761
SATURATED_WATER

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ uses In-Form STORED command

___ contains properties set by In-Form

___ cartesian grid

Q1
762
3D moving-wall; fluid is AIR..277

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ uses conjugate-gradient solver

___ uses In-Form STORED command

___ contains properties set by In-Form

___ cartesian grid

Q1
763
3D SQUARE CAVITY; various fluids: 763

___ contains PHOTON USE commands for displaying results

___ uses conjugate-gradient solver

___ uses LONGNAME

___ uses In-Form STORED command

___ contains properties set by In-Form

___ cartesian grid

Q1
764
InForm Settings And Sources For Objects

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses conjugate-gradient solver

___ contains properties set by In-Form

___ contains initial values set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
765
In-Form Represents Hot Moving Spheres

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ uses In-Form SPHERE function

___ contains sources set by In-Form

___ cartesian grid

Q1
766
2D Football Trajectory.

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses In-Form SPHERE function

___ contains sources set by In-Form

___ time-dependent source set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
767
3D football trajectory: 767

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ uses In-Form SPHERE function

___ time-dependent source set by In-Form

___ contains sources set by In-Form

___ uses In-Form STORED command

___ cartesian grid

Q1
768
3D heating spiral: 768

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ computes heat transfer

___ uses In-Form STORED command

___ uses In-Form SPHERE function

___ contains initial values set by In-Form

___ contains sources set by In-Form

Q1
769
In-Form makes pyramid: 3D

___ contains PHOTON USE commands for displaying results

___ uses In-Form BOX function

___ uses In-Form STORED command

___ cartesian grid

Q1
770
Unsteady mixing in two paddle-stirred r

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses In-Form STORED command

___ uses In-Form BOX function

___ contains sources set by In-Form

___ cartesian grid

Q1
771
Drilling of Pump chamber, BFC: 771

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses In-Form SPHERE function

___ contains initial values set by In-Form

___ cartesian grid

Q1
772
In-Form, sphere in polar coordinates: 77

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ uses In-Form SPHERE function

___ uses In-Form STORED command

Q1
773
Heat Conductivity: In-Form Source.

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
774
T-Junction: In-Form Source.

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
775
Flow In A Model Furnace: In-Form Source.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
776
In-Form equivalent of PLANT case Z623

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

___ In-Form sets the z-direction grid

___ cartesian grid

Q1
777
In-Form equivalent of PLANT case Z622

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ In-Form sets the y-direction grid

___ cartesian grid

Q1
778
In-Form equivalent of PLANT case Z619

___ time-dependent

___ In-Form sets the "time grid"

___ In-Form used to "MAKE" variables

___ uses In-Form STORED command

___ cartesian grid

Q1
779
In-Form equivalent of PLANT case Z613

___ contains PHOTON USE commands for displaying results

___ In-Form used to "MAKE" variables

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
780
In-Form equivalent of PLANT case Z604

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ computes stresses and strains in solids

___ contains properties set by In-Form

___ contains sources set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
781
17-fluid turbulence model

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ contains sources set by In-Form

___ In-Form used to "MAKE" variables

___ In-Form STORED command uses SUM(

___ uses In-Form STORED command

Q1
782
In-Form equivalent of case 240

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
783
3D Piston by In-Form

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ uses ideal-gas law for density

___ In-Form used to "MAKE" variables

___ uses In-Form STORED command

___ uses In-Form BOX function

___ contains sources set by In-Form

Q1
784
Valve motion into 2D Chamber by In-Form

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses In-Form BOX function

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
785
In-Form equivalent of PLANT case Z615

___ contains PHOTON USE commands for displaying results

___ uses In-Form SPHERE function

___ In-Form used to "MAKE" variables

___ In-Form STORED command uses SUM(

___ uses In-Form STORED command

___ uses LONGNAME

___ contains sources set by In-Form

___ cartesian grid

Q1
786
In-Form equivalent of PLANT case Z350

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ involves buoyancy

___ In-Form used to "MAKE" variables

___ uses In-Form STORED command

___ contains sources set by In-Form

___ In-Form STORED command uses SUM(

___ uses LONGNAME

___ cartesian grid

Q1
787
TWO VESSELS BY IN-FORM

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses In-Form SPHERE function

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
788
Cubical Cavity With Moving Lid

___ contains PHOTON USE commands for displaying results

___ uses In-Form STORED command

___ cartesian grid

Q1
789
Shell-and-tube heat exchanger

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ In-Form used to "MAKE" variables

___ uses In-Form STORED command

___ special print-out activated via SPEDAT

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
790
Steady Counterflow Heat Exchanger

___ NY = 1

___ NZ = 1

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
791
Transient Counterflow Heat Exchr.

___ time-dependent

___ NY = 1

___ NZ = 1

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
792
791 + Allowance For Metal Capacity

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
793
Case 4 Steady Crossflow

___ NZ = 1

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
794
Case 5 Transient Crossflow

___ time-dependent

___ NZ = 1

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
795
Case 6; Allowance For Metal CP

___ time-dependent

___ NZ = 1

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
796
Case 7 3D Shell,Tube Heat Exchnger

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
797
Case 8; As For Case 7 But Trans

___ time-dependent

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
798
Case 9; Allowance For Metal Capac

___ time-dependent

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
799
Injection In Channel By In-Form.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ contains sources set by In-Form

___ cartesian grid

Q1
800
3D Shell and (1-pass) Tube Heat Exchange

___ contains PHOTON USE commands for displaying results

___ uses neighbour patch (name = NE...)

___ uses In-Form STORED command

___ contains properties set by In-Form

___ contains sources set by In-Form

___ uses LONGNAME

___ cartesian grid

Q1
801
Inclined Channel; 32,40,1 Grid

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
802
Flow around an inclined tube

___ contains Viewer USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
803
Turn-around duct; Fine Grid

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
804
Turn-Around Duct; 20*40 Grid

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
805
Sphere In A Uniform Stream; Re=40

___ contains Viewer USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
806
Diamond-Shaped Obstacle; 1,18,31 Grid

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
807
2 spheres Re=40. quarter=T finegrid=T

___ contains Viewer USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
808
Cylinder In Uniform Stream; 1,18,31 Grid

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
809
Skewed Box In Uniform Stream; 18,18,31 G

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
810
Free Convection In A Porous Medium

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ involves buoyancy

Q1
811
1D Darcy Flow With Heat Transfer

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NY = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
820
1D U1 Diffusion In An Annulus

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
821
1D U1 Diffusion In An Annulus;Rinner=0

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
822
1D U1 Diffusion In A Rotating Cylinder

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
823
1D U1 Diffusion In An Annulus;Omegi=0.

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
824
2D U1 Flow In An Annulus;Omegi=0.0

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NZ = 1

Q1
825
1D U1 Coriolis/Diffusion Test:Rinner.gt.

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
826
2D U1 Coriolis/Diffusion Test:Rinner.gt.

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NZ = 1

Q1
827
2D U1 Coriolis/Diffusion Test:Rinner=0

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
828
1D U1 Diffusion Of A Free Vortex

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
829
1D U1 Diffusion Of A Forced Vortex

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
830
1D U1 Diffusion Of A Combined Vortex

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
831
1D U1 Coriolis/Diff. Test:Rinner.gt.0 An

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
832
2D U1 Coriolis/Diff. Test:Rinner.gt.0 An

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NZ = 1

Q1
833
2D 360 Deg Polar Wind Flow

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

Q1
850
Longwell Bomb; X-Y Model

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ chemical sources

Q1
851
Steady 1D Flame Phenomena

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ chemical sources

___ cartesian grid

Q1
852
Spherical Flame Propagation

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NZ = 1

___ chemical sources

___ involves buoyancy

Q1
853
SCRS Combustion In A Duct

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ uses SCRS option for density

___ cartesian grid

Q1
855
Transfer objects; 1d diffusion; 1st run.

___ NX = 1

___ computes heat transfer

___ cartesian grid

Q1
856
Transfer objects; 2d convection; 1st run

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ contains sources set by In-Form

___ cartesian grid

Q1
857
domain-partitioning technique. First run

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
858
ATMOSPHERIC B.L., first run

___ contains PHOTON USE commands for displaying results

___ contains sources set by In-Form

___ uses In-Form STORED command

___ contains properties set by In-Form

___ cartesian grid

Q1
859
ATMOSPHERIC B.L., first run

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ contains sources set by In-Form

___ contains initial values set by In-Form

___ uses In-Form STORED command

___ contains properties set by In-Form

___ cartesian grid

Q1
860
Fire in room.

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
861
Smoke near building

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
862
Smoke in room.

___ cartesian grid

Q1
863
Computer cabinet.

___ contains Viewer USE commands for displaying results

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
864
Computer room.

___ contains Viewer USE commands for displaying results

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
870
Contact Resistance To Heat Condctn

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ cartesian grid

Q1
871
3D Steady Heat Conduction In A Cube

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
887
Slow Jet Entering Fast-Moving Surr

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

Q1
890
2D Subsonic Turbulent Round Jet

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ uses ideal-gas law for density

Q1
895
3D Solid-Propellant Rocket

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
896
Fully-Developed, Moving-Wall Duct

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
899
macro used by cases 901-906

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
900
macro by case 909

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
901
De Laval Nozzle - Htot +X

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
902
De LavalL Nozzle - Htot + GXCONV +X

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
903
De Laval Nozzel - Hst +X

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
904
De Laval Nozzle - Hst + GXCONV +X

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
905
De Laval Nozzle - Hst + GXCONV +X

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
906
De Laval Nozzle - Using SMART Scheme

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
907
macro used by cases 908, 909

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
908
Supersonic Flow In Duct - Htot YX

___ NZ = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
909
Supersonic Flow In Duct - Hsta YX

___ NZ = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
910
Fanno Flow - Subsonic Inlet

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
911
2D Supersonic Rocket Exhaust Plume

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

Q1
921
Square Cavity; Steel Block; Water

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
922
Free Conv.; Steel Block In Water

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
923
Free Conv.; Steel Block In Mercury

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
924
Free Conv.; Steel Block In Glycerine

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
925
As For Case 921, But With Turmod(lvel

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ material indices set via SPEDAT

___ cartesian grid

Q1
926
As For Case 921, But With Turmod(lvel

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ material indices set via SPEDAT

___ cartesian grid

Q1
927
As For Case 923, But With Turmod(lvel

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
928
As For Case 924, But With Turmod(lvel

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
933
HotBox N-W Aper N-S Grav XY-Plane

___ NZ = 1

___ uses volumetric block correction

___ computes heat transfer

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
939
HotBox N-W Aper N-S Grav XY-Plane

___ NZ = 1

___ uses volumetric block correction

___ computes heat transfer

___ Two-scale high-Re model

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
947
Couette Flow VX

___ NY = 1

___ NZ = 1

___ uses volumetric block correction

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ Two-scale high-Re model

___ material indices set via SPEDAT

___ cartesian grid

Q1
951
Couette Flow, Reynolds Number = 10.0

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
958
Couette Flow, K-EPS, Various RE

___ NX = 1

___ NZ = 1

___ cartesian grid

** advanced multi-phase **

Q1
p100
FILLING OF A 2D DUCT BY HOL:P100

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p101
FILM FORMATION BY HOL :P101

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p102
SLUMPING OF A LIQUID COLUMN BY HOL:P102

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p103
FALLING WATER JET - HOL METHOD:P103

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p104
FILLING OF A 2D DUCT BY SEM :P104

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p105
FILM FORMATION BY SEM METHOD:P105

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p106
SLUMPING OF A LIQUID COLUMN BY SEM:P106

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p107
FALLING WATER JET - SEM METHOD

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
p108
Particle accumulation along duct walls:P

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ involves buoyancy

___ cartesian grid

Q1
p109
3D flow in a channel with an obstacle:P1

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
p110
3D flow in a circular pipe: P110

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ involves buoyancy

Q1
p111
SETTLING IN A CIRCULAR PIPE: P111

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NZ = 1

___ involves buoyancy

Q1
p112
Trans. phase separation of gas/liq:P112

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ involves buoyancy

___ cartesian grid

Q1
p113
INCLINED JET-PROP FLOW OVER FLAT BED :P1

___ cylindrical grid

___ NX = 1

___ material indices set via SPEDAT

Q1
p114
ASM 1D SETTLING OF PARTICLES P112

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ involves buoyancy

___ cartesian grid

Q1
p115
ASM Workshop: 2D Separator

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
p116
SEM Inflow boundary set with InForm

___ contains Viewer USE commands for displaying results

___ time-dependent

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
p200
1D PARTICLE FLOW IN UNIFORM GAS STREAM

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p201
1D SETTLING OF PARTICLES UNDER GRAVITY

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p202
1D RISING OF AIR BUBBLES IN WATER

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p203
1D SOLIDS TRANSPORT IN WATER

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p204
1D VERTICAL PNEUMATIC CONVEYING

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p205
1D GAS-PARTICLE FLOW WITH HEAT TRANSFER

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p206
1D VIRTUAL MASS TEST CASES

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p207
1DX TRANSIENT SEDIMENTATION

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p216
1D INTERFACIAL-PRESSURE TEST CASE

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
p217
3D PIPE FLOW TEST OF LIFT FORCES

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
p218
BUBBLY AIR/WATER PIPE- Seriwaza upflow

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ two-phase flow

Q1
p219
AIR-SOLIDS FLOW- No turb. Mods

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ two-phase flow

Q1
p220
2D 2-PHASE BUBBLE-STIRRED GAS LADLE

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
p221
TRONDHEIM BUBBLE COLUMN- K-E turb.

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
p222
2D 2-PHASE HILLS BUBBLE COLUMN

___ time-dependent

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
p300
Water pouring into a bund

___ time-dependent

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
p301
FLOW IN OPEN TURNAROUND CHANNEL

___ NX = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
p302
recirculation in a stilling pond

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
p303
Flow impingement on a blunt body

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

** body-fitted coordinates**

Q1
b100
3D grid created by menu

___ body-fitted coordinates

___ cartesian grid

Q1
b101
Bent-pipe grid, created by gset

___ body-fitted coordinates

___ cartesian grid

Q1
b102
Helical-pipe grid, made by DO loop :B102

___ body-fitted coordinates

___ cartesian grid

Q1
b103
Parameterised inclined-plated flow :B103

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses general collocated velocities option

___ solves for LTLS

___ computes WALL DISTANCE

___ LVEL model

___ material indices set via SPEDAT

___ cartesian grid

Q1
b111
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ body-fitted coordinates

___ material indices set via SPEDAT

___ cartesian grid

Q1
b112
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ body-fitted coordinates

___ material indices set via SPEDAT

___ cartesian grid

Q1
b113
No title has been set for this run.

___ body-fitted coordinates

___ material indices set via SPEDAT

___ cartesian grid

Q1
b114
No title has been set for this run.

___ body-fitted coordinates

___ material indices set via SPEDAT

___ cartesian grid

Q1
b115
No title has been set for this run.

___ body-fitted coordinates

___ uses general collocated velocities option

___ Chen-Kim high-Re model

___ material indices set via SPEDAT

___ cartesian grid

Q1
b116
No title has been set for this run.

___ NZ = 1

___ body-fitted coordinates

___ uses general collocated velocities option

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b200
Data from ICEM CFD

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
b201
GeoGrid Example

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
b202
Data from ICEM CFD

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
b414
POTENTIAL FLOW AROUND 1/2 CYLINDER: B514

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ darcy flow in porous medium

___ cartesian grid

Q1
b422
Plane transonic flow through a nozzle

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ uses ideal-gas law for density

___ cartesian grid

Q1
b459
CONJ.HEAT TRANS.IN A CURVED DUCT: B459

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses volumetric block correction

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
b510
2-D DIFFUSER ;Y-Z CARTESIAN COORD.: B510

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b511
2-D DIFFUSER ;Y-Z CARTESIAN COORD.: B510

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b512
2-D CURVED DUCT; Y-Z PLANE : B512

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b513
PLANE DUCT + ANGLED SPLITTER PLATE: B513

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b514
POTENTIAL FLOW AROUND 1/2 CYLINDER: B514

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ darcy flow in porous medium

___ cartesian grid

Q1
b515
MAGIC-GENERATED 1/2 CYLINDER GRID: B515

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ darcy flow in porous medium

___ cartesian grid

Q1
b516
POT FLOW OVER ELLIPSE;ALGEBR. GRID: B516

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ darcy flow in porous medium

___ cartesian grid

Q1
b517
POT FLOW OVER ELLIPSE;MAGIC GRID: B517

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ darcy flow in porous medium

___ cartesian grid

Q1
b518
As for 517 with Navier-Stokes Soltn:B518

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b519
FLOW OVER ELLIPSE;MAGIC GRID: B519

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b520
POT. FLOW AROUND A HALF-CYL X-Z: B520

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ darcy flow in porous medium

___ cartesian grid

Q1
b521
POT. FLOW AROUND A HALF-CYL X-Y : B521

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ darcy flow in porous medium

___ cartesian grid

Q1
b522
TRANSONIC FLOW THRU A NOZZLE: B522

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b523
SUPERSONIC FLOW THRU WEDGE CASCADE: B523

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b524
MIZUKI radial flow impeller: B524

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ cartesian grid

Q1
b525
FLOW THROUGH A REACTION TURBINE: B525

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ uses EXPERT dynamic relaxation

___ cartesian grid

Q1
b526
Flow in Hobson's cascade : B526

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b527
PLANE FLOW IN TURNAROUND DUCT: B527

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b528
Flow over a symmetric aerofoil: B528

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b529
External flow over a rocket: B529

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses ideal-gas law for density

___ cartesian grid

Q1
b530
FLOW AROUND A SHIP'S STERN : B530

___ body-fitted coordinates

___ cartesian grid

Q1
b531
2D BODY-SECTION IN A WIND TUNNEL: B531

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b532
DEMONSTRATIONS OF GRID GENERATION: B532

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b533
PLANE CHANNEL + SMOOTH EXPANSION.: B533

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b534
FLOW THROUGH A BALL VALVE : B534

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b536
PRANDTL-MEYER turning in the X-Y: B536

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b537
TURNAROUND DUCT WITH USER CHOICES :B537

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b538
GSET COMMAND TUTORIAL 1 :B538

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b539
TRANSFER_BETWEEN_TWO_SHAPES : B539

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b540
COPY-ROTATE_EXAMPLE:B540

___ body-fitted coordinates

___ cartesian grid

Q1
b541
CURVATURE_FOR_CAR_BODYB541

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b542
SUB-DOMAIN_SMOOTHINGB542

___ NY = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b543
TIME_SETTINGB543

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
b544
GRID_ON_CIRCLE :B544

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b545
FLOW IN A 180 Deg CURVED DUCT

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ material indices set via SPEDAT

___ cartesian grid

Q1
b546
Pipe flow with two semi-circular blocks

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses volumetric block correction

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b551
macro by case 909

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
b552
macro by case 909

___ NY = 1

___ body-fitted coordinates

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
b561
Flow through a circular domain :561

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
b562
POLAR GRID DOWNFLOW V RAD., U AZI. :562

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b563
Viscous flow in a S-shaped duct :563

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b565
Radiused slot entry :565

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b566
Case 1 (WUA-CFD meeting in Basel,1994).

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ RNG high-Re model

___ cartesian grid

Q1
b567
Bent-pipe grid, created by GSET :567

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ solves for VELOCITY POTENTIAL

___ cartesian grid

Q1
b568
Twisted-pipe grid; potential flow :568

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ solves for VELOCITY POTENTIAL

___ cartesian grid

Q1
b569
Flow in a curved pipe :569

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ cartesian grid

Q1
b570
XY Duct, GCV Solver, Skew angle 70.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses general collocated velocities option

___ cartesian grid

Q1
b571
Skewed Cavity, Staggered Solver, Angle =

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b572
Flow around a Cylinder at Re = 40.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
b573
Flow around a Cylinder at Re = 40.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
b574
Flow around a Cylinder at Re = 40.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b575
Flow past Off-set Cylinders - Staggered

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses volumetric block correction

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b576
Case 1 WUA-CFD Basel,1994 - Staggered

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ RNG high-Re model

___ cartesian grid

Q1
b577
CAR body.

___ body-fitted coordinates

___ uses general collocated velocities option

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b578
Stirred reactor with baffles

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b579
CAR body - Staggered Solver

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b580
IAHR Smooth Channel, Re = 10.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ cartesian grid

Q1
b581
Radiused Slot Entry - Staggered

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b582
Pipe Flow with Unstructured Multi-Block

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ material indices set via SPEDAT

___ cartesian grid

Q1
b583
3D TURBULENT FLOW IN AN ELBOW METER

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses general collocated velocities option

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b584
Sliding grid test case

___ contains Viewer USE commands for displaying results

___ time-dependent

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
b585
Pipe Flow with Multi-Block Grid and LVEL

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses multi-block grid

___ uses general collocated velocities option

___ solves for LTLS

___ computes WALL GAP

___ computes WALL DISTANCE

___ LVEL model

___ material indices set via SPEDAT

___ cartesian grid

Q1
b963
expanding closed 3D box

___ time-dependent

___ body-fitted coordinates

___ involves moving body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b964
expanding open-ended 2D box

___ time-dependent

___ NY = 1

___ body-fitted coordinates

___ involves moving body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b965
Moving-bfc test; grid distortion :b965

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ body-fitted coordinates

___ involves moving body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b966
Expanding sphere :B966

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ body-fitted coordinates

___ involves moving body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b967
cylinder with grid distortion :B967

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ body-fitted coordinates

___ involves moving body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
b968
Expanding sphere :B968

___ time-dependent

___ body-fitted coordinates

___ involves moving body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

** advanced chemistry**

Q1
c109
NOX Post-Processing Of Case 481

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ cartesian grid

Q1
c110
2-D Coal Combustion With NOX

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses LONGNAME

___ material indices set via SPEDAT

Q1
c111
3-D Coal Combustion In A Furnace

___ contains PHOTON USE commands for displaying results

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ use special GROUND furngr

___ cartesian grid

Q1
c112
No title has been set for this run.

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ uses SCRS option for density

___ cartesian grid

Q1
c113
2-D CH4/AIR combustion+thermal NOX: C113

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses SCRS option for density

Q1
c114
1D coal + wood combustion

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses wood-combustion model

___ uses 7gases option for density

___ chemical sources with Arrhenius model

___ chemical sources

___ cartesian grid

Q1
c115
coal- and wood-burning furnace

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses wood-combustion model

___ uses 7gases option for density

___ chemical sources with Arrhenius model

___ chemical sources

___ cartesian grid

Q1
c116
Low Load, Coal and Wood

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses wood-combustion model

___ uses 7gases option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ chemical sources with Arrhenius model

___ chemical sources

___ material indices set via SPEDAT

___ cartesian grid

Q1
c201
CHEMKIN-1DY Plug Flow H2-O2 Reactor 201

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ uses CHEMKIN option for density

___ cartesian grid

Q1
c202
Plug Flow Reactor, Para. PHOENICS solver

___ NX = 1

___ NY = 1

___ steady parabolic flow

___ computes heat transfer

___ uses CHEMKIN option for density

___ cartesian grid

Q1
c203
CHEMKIN - 0D-Transient Reaction

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ uses CHEMKIN option for density

___ cartesian grid

Q1
c204
CHEMKIN - 1DY Premixed H2-Air Flame

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ uses CHEMKIN option for density

___ Constant-effective-viscosity model

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
c205
CHEMKIN - 1DZ Premixed H2-Air Flame

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ computes heat transfer

___ uses CHEMKIN option for density

___ Constant-effective-viscosity model

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
c206
C206: 1DX Thermal Diffusion Test

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ cartesian grid

Q1
c207
C207: 1DY Thermal Diffusion Test

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ cartesian grid

Q1
c208
C208: 1DZ Thermal Diffusion Test

___ NX = 1

___ NY = 1

___ computes heat transfer

___ cartesian grid

Q1
c209
1DX Simple H2=g2H Reaction Test Case

___ NY = 1

___ NZ = 1

___ uses CHEMKIN option for density

___ cartesian grid

Q1
c210
Thermal Diffusion Test-Case: XY-plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ cartesian grid

Q1
c211
Thermal Diffusion Demo.: YZ-plane

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ computes heat transfer

___ cartesian grid

Q1
c301
Premixed CH4 Combustion

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
c302
Owen Furnace CH4 Diffusion Flame

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

___ special print-out activated via SPEDAT

Q1
c303
Premixed CO Combustion

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
c304
Premixed CO And H2 Combustion

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
c305
Premixed 2Step CH4 Combustion

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
c306
RADIAN: 2D Turbulent Diffusion Flame

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
c307
Kent-Bilger H2 Diffusion Flame

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
c308
CO Diffusion Flame

___ cylindrical grid

___ NX = 1

___ uses CHEMKIN option for density

___ uses extended SCRS

Q1
c309
CH4 Statoil Furnace

___ NX = 1

___ body-fitted coordinates

___ uses CHEMKIN option for density

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses extended SCRS

___ material indices set via SPEDAT

___ cartesian grid

Q1
c310
ke_rf220_106

___ body-fitted coordinates

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
c400
Coke Burning In A Grate Stoker

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
c401
Coal-Fired Boiler

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
c402
Rotary Kiln For Particulate Refuse

___ cylindrical grid

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses 7gases option for density

___ involves buoyancy

Q1
c403
Transport Of Toxic Spill

___ NX = 1

___ body-fitted coordinates

___ uses general collocated velocities option

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
c404
Building Fire In Cross-Wind

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
c405
Secondary Combustion Chamber

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
c406
Two-step reaction: 1 fluid

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses ideal-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
c407
Wall-fired model furnace

___ contains PHOTON USE commands for displaying results

___ two-phase flow

___ uses ideal-gas law for density

___ uses PLANT to create extra Fortran coding

___ cartesian grid

** GENTRA (particle tracking**

Q1
g200
Backward-facing step : G200

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
g201
Spray dryer (BFC=T) : G201

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
g204
Particles in radial impeller: G204

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ cartesian grid

Q1
g205
Particles through a ball valve: G205

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
g207
Sample cup in rain: G207

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

Q1
g209
Particles in 2D curved duct: G209

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses volumetric block correction

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
g210
1D Evaporation of a Water Jet in a Duct

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ uses In-Form STORED command

___ cartesian grid

Q1
g301
Particle heating in pipe : G301

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ cylindrical grid

Q1
g302
HEAT-EXCHANGING, 1-D : G302

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
g303
HEAT-EXCHANGING, 1-D, TRANSIENT: G303

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
g401
SOLIDIFYING,1D,TRANSIENT,M=3.0:G401

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
g403
SOLIDIFYING,1D,TRANS.,L=L(T): G403

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
g405
ISOTHER. SOLIDIFYING,1D,TRANS.:G405

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
g502
PARTICLE EVAPORATING IN PIPE: G502

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ cartesian grid

Q1
g505
Evapor. particl.in spray dryer:G505

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses ideal-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains properties set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
g506
PARTICLES IN 2D CURVED DUCT: G506

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses volumetric block correction

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
g507
ISOTHER. EVAPORN, CONST PROP'S:G507

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
g508
ISOTHER. EVAPORN, CONST PROP'S:G508

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
g704
Test for tracers in BFC: G704

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ cartesian grid

Q1
g706
Beams in reaction turbine: G706

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ uses isentropic-gas law for density

___ cartesian grid

Q1
g721
Particle bouncing in grav field: G721

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ cartesian grid

Q1
g722
Oblique impingement of box on water: G72

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ involves buoyancy

___ contains properties set by In-Form

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ cartesian grid

** multi-block and fine-grid embedding**

Q1
f100
CCM : Square cavern (Re=10000.).

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses CCM method

___ cartesian grid

Q1
f101
CCM: Back-facing step (2 layer K-E).

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ uses CCM method

___ solves for LTLS

___ computes WALL DISTANCE

___ Second simple low-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f102
CCM : Re= 1000.; TET= 45.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f103
CCM : Laminar convection in Annuli.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f104
CCM: U-duct (Y-Z plane, Re=1000.).

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f105
CCM: Swirl-flow (Re=100).

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
f106
CCM-SCHM: X-Y convection in skewed flow.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f107
CCM : Pressure Drop (X-Y).

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses CCM method

___ cartesian grid

Q1
f108
FGE: Backward facing step with KEMODL mo

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
f109
CCM : Salted water flow.

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f110
CCM : Swirling flow; Lin-expan. (Re=200)

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f111
CCM : 2D-duct with F(Re)-expansion.

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f112
CCM: Bay flow (3D,K-E

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ body-fitted coordinates

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f113
PHOENICS: Swirling flow.

___ NX = 1

___ body-fitted coordinates

___ uses CCM method

___ cartesian grid

Q1
f114
NON-ISOTHERMAL 2D LAMINAR MIXING LAYER

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses CCM method

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
f150
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses CCM method

___ cartesian grid

Q1
f200
MB-FGE: 2D Potential flow over airfoil.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ solves for VELOCITY POTENTIAL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f201
MB-FGE: Heat Conduction in a 5-pointed s

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f202
MB-FGE: Laminar flow between two cylinde

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f203
MBFGE: Flow in cavity (5 blocks).

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f204
MB-FGE: 2D skewed cavity with moving lid

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f205
MB-FGE: 2D Flow Over Back-Step (2L K-E).

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ solves for LTLS

___ computes WALL DISTANCE

___ Second simple low-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f206
MB-FGE: 2D Continuous Caster Model

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f207
MB-FGE: 2D Turbulent Flow Inside The 'Ar

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ Second simple low-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f208
MB-FGE: Swirl-flow (Re=100).

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f209
FGEM, Gas Leak Example

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f210
MB-FGE: Case 1 (WUA-CFD-94, Laminar).

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f211
Linked Tank Assembly

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f212
Multi-block BFC grid for T-junction

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f213
MB-FGE: Laminar flow through 'cyclone'.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f214
MBFGE-SCHM: X-Y convection in skewed flo

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f215
MBFGE: Swirling flow; Lin-expan. (Re=200

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f216
MBFGE: Laminar axisymmetric flow.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
f217
SHOCK TUBE;Ideal-Gas P-Ro relation.

___ time-dependent

___ NY = 1

___ NZ = 1

___ uses CCM method

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
f218
MBFGE: 2D Stirred flow (K-E).

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f219
MBFGE: Flow around rotating disk (Re=1).

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f220
MBFGE: 3D (Re=2000.; K-E) sliding grid.

___ time-dependent

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f221
MBFGE: 2D Moving 'boxes' (K-E).

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f222
MBFGE: 2 phase 2D X-flow (X-Y plane, Re=

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f223
MBFGE: 2 phase 2D X-flow (X-Y plane, Re=

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f224
MBFGE-2P: Mono-Propellant Combustion.

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses multi-block grid

___ uses CCM method

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
f301
FGE: 2D Flow around a circular object

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
f302
FGE: 2D Flow around a square object

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
f303
FGE: Jet flow into a large duct

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ cartesian grid

Q1
f304
FGE: 3D Flow through a rectangular duct

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ cartesian grid

Q1
f305
FGE: 3D Flow around a heated object

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
f306
FGE: Backward Facing Step

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
f307
FGE: Flow over backward facing step

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
f308
FGE: Backward facing step with KEMODL mo

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses fine-grid-embedding

___ material indices set via SPEDAT

___ cartesian grid

Q1
f309
Simple f301 (tem1, x-y plane)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f310
Simple f301 (tem1 + uniform u1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f311
Simple f301 (tem1 + heat generation)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f312
f309 for x-z plane

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f313
F310 FOR X-Z PLANE

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f314
F311 FOR X-Z PLANE

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f315
Simple f302 (tem1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f316
Simple f302 (tem1 + uniform u1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f317
Simple f303 (tem1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f318
Simple f303 (tem1 + uniform u1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f319
F317 for X-Z PLANE

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f320
F318 WITH X-Z PLANE

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f321
Simple f304 (tem1, 3D)

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f322
Simple f304 (tem1 + uniform u1, 3D)

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f323
Simple f306 (tem1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f324
Simple f306 (tem1 + uniform u1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ uses outer iterations in FGEM solver

___ cartesian grid

Q1
f325
Simple f307 (tem1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f326
Simple f307 (tem1 + uniform u1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f327
Simple f308 (tem1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f328
Simple (tem1 + uniform u1)

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses In-Form STORED command

___ uses fine-grid-embedding

___ cartesian grid

Q1
f329
3D solution of f309 (Tem1)

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses fine-grid-embedding

___ cartesian grid

Q1
f330
3D solution of f310 (tem1 with uniform u

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses outer iterations in FGEM solver

___ uses fine-grid-embedding

___ cartesian grid

Q1
f400
Two tubes in a semi-rectangular chamber

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
f401
Flame holders in an afterburner

___ NZ = 1

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ chemical sources with eddy-break-up model

___ material indices set via SPEDAT

___ cartesian grid

Q1
f402
Two-phase flow in a bifurcation

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
f403
SUPERSONIC FLOW OVER DIAMOND-SHAPE BODY

___ NZ = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f404
Longitudinal vortex generators

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
f405
Delta-winglets behind a cylinder

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

** multi-fluid turbulence**

Q1
l100
WSR, 1D (Reactedness) Population

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l101
WSR, 1D Population; Flowa=0.5

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l102
WSR, 1D Population; RATEXP=5.

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l103
AWSR transient, conmix=100. conrea=1.

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ contains sources set by In-Form

___ cartesian grid

Q1
l110
2d population, steady; case L110

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l113
2d Population, Transient, L113

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l220
1D Flame Propgn; Conmix=1. Conrea=0.025

___ NY = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l230
MFM; 1dsmoke; conmix=5.

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ uses SCRS option for density

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l231
MFM; 1dsmoke; conmix=5.

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ activates IMMERSOL

___ uses SCRS option for density

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l300
10-Fluid Model Of Mixing Layer; Conmix=5

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ uses dollar: source=(VAL-PHI)*CO*NAME patch

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l301
1d ocean layer; 2d pop. ; v + w as PDAs

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l302
Round Jet; MFM; parabolic

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ uses dollar: source=(VAL-PHI)*CO*NAME patch

___ contains properties set by In-Form

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ uses multi-fluid turbulence model

Q1
l303
Round Jet; MFM; parabolic

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ steady parabolic flow

___ uses dollar: source=(VAL-PHI)*CO*NAME patch

___ contains properties set by In-Form

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ uses multi-fluid turbulence model

Q1
l304
K-EP:KH instability

___ time-dependent

___ NZ = 1

___ involves buoyancy

___ uses In-Form STORED command

___ uses multi-fluid turbulence model

___ cartesian grid

Q1
l310
Round Jet; MFM; parabolic

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ uses dollar: source=(VAL-PHI)*CO*NAME patch

___ uses In-Form STORED command

___ contains properties set by In-Form

___ uses multi-fluid turbulence model

Q1
l400
2D Combustor With Smoke Generation

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains lines to be read by EARTH via READQ1

___ contains properties set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ uses LONGNAME

___ uses multi-fluid turbulence model

___ material indices set via SPEDAT

Q1
l401
Case 400 With Enlarged EBU Constant, Viz

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains lines to be read by EARTH via READQ1

___ contains properties set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ uses LONGNAME

___ uses multi-fluid turbulence model

___ material indices set via SPEDAT

Q1
l500
MFM; Stirred Tank; Conmix=5.

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ uses In-Form STORED command

___ uses multi-fluid turbulence model

Q1
l501
MFM; Stirred Tank; Nfluids = 21

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ uses In-Form STORED command

___ uses multi-fluid turbulence model

Q1
l502
MFM; Stirred Tank; Conmix=50.

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ uses In-Form STORED command

___ uses multi-fluid turbulence model

Q1
l530
MFM; 3D Cmbstr; Conmix=5.

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains lines to be read by EARTH via READQ1

___ contains properties set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ uses LONGNAME

___ uses multi-fluid turbulence model

___ material indices set via SPEDAT

Q1
l600
MFM; 3D Cmbstr; Conmix=5.

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ uses SCRS option for density

___ contains lines to be read by EARTH via READQ1

___ contains properties set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ uses LONGNAME

___ uses multi-fluid turbulence model

___ material indices set via SPEDAT

Q1
l999
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

** advanced numerical algorithms**

Q1
n101
YX DIAGONAL SCALAR CONVECTION :N101

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses LONGNAME

___ cartesian grid

Q1
n102
YX LAMINAR WALL-DRIVEN CAVITY

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
n103
YX LAMINAR BACKWARD-FACING-STEP FLOW

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
n104
YX SCALAR CONVECTION WITH RECIRCULATION

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
n105
YX TURBULENT BACKWARD-FACING-STEP FLOW

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses conjugate-gradient solver

___ material indices set via SPEDAT

___ cartesian grid

Q1
n106
2DXZ LAMINAR WALL-DRIVEN CAVITY

___ NY = 1

___ cartesian grid

Q1
n107
2DXZ TURBULENT BKWRD FACING STEP: N107

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n108
2DYX LAMINAR FLOW OVER A FENCE: N108

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ cartesian grid

Q1
n109
2D BFC LAMINAR WALL-DRIVEN CAVITY

___ NY = 1

___ body-fitted coordinates

___ cartesian grid

Q1
n110
2D TURBULENT FLOW THROUGH AN ORIFICE

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses LONGNAME

___ material indices set via SPEDAT

Q1
n111
1D SHOCK-FREE TRANSONIC NOZZLE FLOW

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ cartesian grid

Q1
n112
1D SHOCKED TRANSONIC FLOW IN A LAVAL NOZ

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

___ cartesian grid

Q1
n113
2D TRANSONIC UNDEREXPANDED JET: N113

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses ideal-gas law for density

___ use special GROUND convgr

Q1
n114
2D BLUFF-BODY STABILISED METHANE JET

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ use special GROUND convgr

Q1
n115
YX BFC DIAGONAL SCALAR CONVECTION

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ cartesian grid

Q1
n116
YX BFC UNIFORM FLOW THROUGH A BOX

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ cartesian grid

Q1
n117
YX BFC UNIFORM FLOW ACROSS SKEWED BOX

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ cartesian grid

Q1
n121
point source, various schemes

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses LONGNAME

___ cartesian grid

Q1
n122
point source, best schemes + CLDA

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses Conservative Low-Dispersion Algorithm

___ uses LONGNAME

___ cartesian grid

Q1
n131
YX DIAGONAL SCALAR CONVECTION :N101

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses LONGNAME

___ cartesian grid

Q1
n201
CORE CASE 290 WITH JACB SOLVER :N201

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n202
CORE CASE 290 WITH GASD SOLVER :N202

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n203
CORE CASE 290 WITH ORLU SOLVER :N203

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n204
CORE CASE 290 WITH MSIP SOLVER :N204

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n205
CORE CASE 290 WITH CRGR SOLVER :N205

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n206
CORE CASE 290 WITH JACD SOLVER :N206

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n207
CORE CASE 290 WITH JACR SOLVER :N207

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n208
CORE CASE 290 WITH LUCG SOLVER :N208

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n209
CORE CASE 290 WITH LUCR SOLVER :N209

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n210
CORE CASE 290 WITH LACM SOLVER :N210

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n211
CORE CASE 290 WITH MACM SOLVER :N211

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n212
CORE CASE 290 WITH ALCM SOLVER :N212

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n213
CORE CASE 290 WITH AMCM SOLVER :N213

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
n301
GXCLDA tests : N301

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses Conservative Low-Dispersion Algorithm

___ contains lines to be read by EARTH via READQ1

___ cartesian grid

** PLANT**

Q1
z100
SQUARE CAVITY WITH MOVING LID:Z100

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z101
XYLEN FLOW IN CONV.-DIV, DUCT: Z101

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z102
VEHICULAR EXHAUST DISPERSION IN RAINFALL

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z103
PHASE DISTRIBUTION IN A SMOOTH EXPANSION

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z104
2D UNSTEADY DIFFUSION PROBLEM:Z104

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ uses conjugate-gradient solver

___ cartesian grid

Q1
z105
ABSORPTIVE DISPERSAL WITH STEP-TIME DEPE

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z106
FREEZING WATER IN A LID-DRIVEN CAVITY:Z1

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z107
2D CHANNEL FLOW WITH LINEAR INLET PROFIL

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z108
3D STEADY HEAT CONDUCTION IN A CUBE:108

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z109
RECIRCULATION IN A STILLING POND:109

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ uses isentropic-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z110
3D SHELL-AND-TUBE HEAT EXCHANGER:110

___ contains PHOTON USE commands for displaying results

___ uses neighbour patch (name = NE...)

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z111
ABSORPTIVE DISPERSAL WITH TIME DEPENDENT

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z112
COMPLEX CONVECTION DEPENDENT SOURCE:112

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z113
NON-ISOTHERMAL COUETTE FLOW:113

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z114
BRIDGED PIPE HEAT TRANSFER:114

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ uses PLANT to create extra Fortran coding

Q1
z115
SELF-STEERING UNDER-RELAXATION

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z116
Flow in stirred 3D vessel

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z117
2D HEAT CONDUCTION WITH SPACE DEPENDENT

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z118
3D DIFFUSION PROBLEM:118

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z119
2D UNSTEADY DIFFUSION PROBLEM:119

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z120
2D CONVECTIVE-DIFFUSION PROBLEM:120

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z121
1D uniform flow dispersion:121

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z122
3D SHELL-AND-TUBE HEAT EXCHANGER:122

___ contains PHOTON USE commands for displaying results

___ uses neighbour patch (name = NE...)

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z123
CONJUGATE HEAT TRANSFER IN THICK-WALLED

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses PLANT to create extra Fortran coding

Q1
z124
NATURAL STIRRING IN A STABLY FLUID:124

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses PLANT to create extra Fortran coding

Q1
z126
Soil-water flow in a curved channel:126

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z127
Polysized heavy aerosol dispersion:127

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z128
NATURAL STIRRING IN A STABLY FLUID:124

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses PLANT to create extra Fortran coding

Q1
z129
NATURAL CONVECTION BETWEEN FLAT PLATES:1

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z130
BENCHMARK CASE OF MIXED CONVECTION:130

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z131
NATURAL CONVECTION IN POROUS MEDIA:131

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z132
COMPLEX CHEMISTRY EXAMPLE:132

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z133
Three component mixing of different gase

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ uses SCRS option for density

___ uses PLANT to create extra Fortran coding

Q1
z134
Natural cooler in a still atmosphere:134

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z135
3D SHELL-AND-TUBE HEAT EXCHANGER:135

___ contains PHOTON USE commands for displaying results

___ uses neighbour patch (name = NE...)

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z136
FLOW IN A MODEL FURNACE:136

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z137
CANOPY-GENERATED SECONDARY FLOW:137

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z138
VEHICULAR EXHAUST DISPERSION IN SNOW FAL

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z139
FIRE INSIDE BUILDING ARRAY:139

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z140
HEAT TRANSFER IN ABRUPT ENLARGEMENT AT P

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses PLANT to create extra Fortran coding

Q1
z141
EXHAUST DISPERSION IN THE STREET:141

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z142
EXHUAST DISPERSION NEAR TOWER BLOCK:142

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z143
PHASE DISTRIBUTION IN A DUCT:143

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ two-phase flow

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z144
ON-LINE WIND TURBINES:144

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z145
CO-LOCATED VELOCITY CALCULATION:145

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z146
Slumping of a liquid column by SEM meth

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z147
WALL DISTANCE CALCULATOR:147

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z244
Laminar pipe flow with non-linear resist

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses PLANT to create extra Fortran coding

Q1
z250
Flow straightened by vanes + resistances

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z251
Steady lam. fl. prop.; const=(1+y)*0.2

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z252
4fl fl prp; rconst=1.; mconst=0.5

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z350
VENTS LINKED TO REMOTE DETECTOR

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ involves buoyancy

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z450
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z451
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z452
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z453
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z454
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z455
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z456
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z457
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z458
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z459
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z500
3D grid of star-shaped cross section

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z501
3D corrugated circular pipe

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z502
3D S-shaped circular pipe

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z503
3D helically coiled pipe

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z504
Epicycloidal pipe

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z505
3D hypocycloidal beam

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z506
3D periodically enlarged pipe

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z507
3D snail-like chamber

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z508
3D hill-like shell

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z509
3D igloo

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z510
3D chamber with cut cylinder

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z511
2D zigzag channel

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z512
2D periodically broken channel

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z513
2D converging-diverging channel

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z514
Viscous flow in converging-diverging ch

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z515
Flow in gradually corrugated channel

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z601
Drilling star-shaped space

___ contains PHOTON USE commands for displaying results

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z602
DRILling BOX: CARTES =T

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z603
DRILling CYLINDER: CARTES=F

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ uses PLANT to create extra Fortran coding

Q1
z604
HEXAGON 2D : SFT ANALYSIS FOR A MODEL

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ uses PLANT to create extra Fortran coding

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
z605
Five examples initialization box

___ contains PHOTON USE commands for displaying results

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z607
Analytical BFC grids : 2D sample-kit.

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z608
Analytical BFC grids : 3D sample-kit.

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z609
Gradually corrugated channel

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ body-fitted coordinates

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z610
Unsteady mixing in two paddle-stirred r

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z611
2D Stress in solid, XY plane

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z612
SQUARE CAVITY WITH MOVING LID:Z100

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z613
Global and self-steering under-relaxatn

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z614
Conjugate heat transfer of rotating obj

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ uses PLANT to create extra Fortran coding

Q1
z615
Inlet flux scaling: swirling flow in a c

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z616
CONFINED JET FLOW: 17 FLUID MFM

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ uses PLANT to create extra Fortran coding

Q1
z617
2dxy uniform heating.

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ uses PLANT to create extra Fortran coding

___ contains lines to be read by EARTH via READQ1

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
z618
Block passing through orifice

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z619
TIME STEP CALCULATIONS

___ time-dependent

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z620
Idealised Gas-Turbine Combustion Chamber

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ contains lines to be read by EARTH via READQ1

___ contains properties set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ uses LONGNAME

___ material indices set via SPEDAT

Q1
z621
Alteration of convection fluxes

___ contains PHOTON USE commands for displaying results

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z622
Expanding and contracting the grid

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z623
Plane Jet;Mixing Length Model;Para

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z711
1D Fine coal-particle combustion

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z712
Convection-only steady combustion of CO

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z713
Combustion of packed bed of coke

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z714
Ore reduction in a packed bed

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z721
Combustion-driven coke flow

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

Q1
z722
Fines-and-coke-combustion-driven solid f

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z723
Combustion-fusion-driven solid flow

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z731
Combustion-melting-driven ore/coke mixtu

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z741
Combustion-driven raceway :coal fines an

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z742
Coal fines flame in a coke bed: raceway

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
z751
SAFIR 2D: blast furnace model

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z761
System level coke combustion simulation

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z762
Environmental level coke combustion simu

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ uses PLANT to create extra Fortran coding

___ material indices set via SPEDAT

___ cartesian grid

Q1
z763
Melting of solid flow

___ cylindrical grid

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

** advanced radiation **

Q1
r100
CVD REACTOR RADIATION EXAMPLE : R100

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
r101
CVD REACTOR RADIATION EXAMPLE(BFC): R101

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
r102
LAMINAR FLOW BETWEEN PARALLEL PLATE:R102

___ contains Viewer USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
r103
TURB. FLOW BETWEEN PARALLEL PLATE: R103

___ contains Viewer USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
r105
1-D Y-DIRECTION SHELL SURFACE: R105

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
r107
1-D Y-DIRECTION SOLID SURFACE : R107

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ star-name patch: source=CO*PHI*NAME**VAL

___ material indices set via SPEDAT

___ cartesian grid

Q1
r108
1-D Y-DIRECTION SHELL SURFACE: R108

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
r111
1-D FIXED SURFACE TEMPERATURE : R111

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r113
1-D FIXED-FLUX FLUID SURFACE : R113

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
r114
1-D FIXED-FLUX SOLID SURFACE : R114

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r115
1-D CARTESIAN Y-DIRECTION : R115

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r116
1-D SOLID-FLUID-SOLID SET-UP: R116

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r118
1-D THIN PLATE : R118

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ cartesian grid

Q1
r119
1-D TRANSIENT : R119

___ contains Viewer USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r120
SQUARE CAV. WITH MOVING LID + RADI:R120

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
r121
1D RADIATIVE EQUILIBRIUM IN SLAB : 121

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
r122
1D RADIATION+HEAT SOURCE IN A SLAB:122

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
r123
1D RADIATION+HEAT SOURCE IN A TUBE:123

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

Q1
r124
BFC RADIATION+HEAT SOURCE IN A TUBE:124

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r125
BFC RADIATION+HEAT SOURCE IN A SLAB:125

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ cartesian grid

Q1
r190
Gateway to IMMERSOL library cases

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r193
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r194
No title has been set for this run.

___ NZ = 1

___ cartesian grid

Q1
r195
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r196
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r197
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r198
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r199
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r200
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
r201
IMMERSOL 1D transparent medium :201

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ material indices set via SPEDAT

___ cartesian grid

Q1
r202
IMMERSOL 1D Radiative equilibrium :202

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ material indices set via SPEDAT

___ cartesian grid

Q1
r203
IMMERSOL 1D Radiative equilibrium :203

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r204
2D TEM1 + T3, Participating gas

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
r205
3D TEM1 + T3, Participating ideal gas :2

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ material indices set via SPEDAT

___ cartesian grid

Q1
r206
IMMERSOL-WALL 1D for TEM1 + T3. :206

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ cartesian grid

Q1
r207
IMMERSOL-WALL 1D for H1-T3. :207

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ uses In-Form STORED command

___ cartesian grid

Q1
r208
IMMERSOL- 1D fixed flux through domain

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ cartesian grid

Q1
r209
2D radiative heat exchange,TEM1 + T3:209

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
r210
2D radiative heat exchange,H1 + T3:210

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
r211
2D radiative heat exchange, + SCRS :211

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ chemical sources with eddy-break-up model

___ material indices set via SPEDAT

___ cartesian grid

Q1
r212
IMMERSOL-SCRS 2D model of burner :212

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ Q1 is used as PROPS file via MATFLG entries

___ chemical sources with eddy-break-up model

___ uses In-Form STORED command

___ material indices set via SPEDAT

Q1
r213
IMMERSOL-SCRS 2D model of burner :213

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ Q1 is used as PROPS file via MATFLG entries

___ chemical sources with eddy-break-up model

___ uses In-Form STORED command

___ material indices set via SPEDAT

Q1
r214
IMMERSOL-SCRS 2D model of burner :214

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ Q1 is used as PROPS file via MATFLG entries

___ chemical sources with eddy-break-up model

___ uses In-Form STORED command

___ material indices set via SPEDAT

Q1
r220
IMMERSOL: empty box; fixed wall temps

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ activates IMMERSOL

___ material indices set via SPEDAT

___ cartesian grid

Q1
r221
IMMERSOL 1D between thick conducting wal

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
r222
IMMERSOL 1D Radiative equilibrium :202

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
r230
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r231
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r232
No title has been set for this run.

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r233
No title has been set for this run.

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r234
No title has been set for this run.

___ NX = 1

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r235
No title has been set for this run.

___ NX = 1

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r236
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r237
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r238
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r239
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r240
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r241
No title has been set for this run.

___ NY = 1

___ NZ = 1

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r242
No title has been set for this run.

___ NZ = 1

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r243
No title has been set for this run.

___ NZ = 1

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r244
No title has been set for this run.

___ NX = 1

___ NY = 1

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
r245
No title has been set for this run.

___ NX = 1

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ solves for LTLS

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
r333
No title has been set for this run.

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ material indices set via SPEDAT

___ cartesian grid

Q1
r400
IMMERSOL for heat-treatment furnace

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
r401
A Radiant Heater Panel

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
r402
Buoyancy-induced cooling of a radiating

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
r403
Heat treatment in a direct-fired furnace

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ uses SCRS option for density

___ chemical sources with eddy-break-up model

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
r404
Thermal radiation in a compartment fire

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ uses SCRS option for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
r405
Convection affected by radiation

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
r406
Lid-driven flow in a radiating cavity

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
r407
Radiative oven

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP

___ activates IMMERSOL

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
r408
A stove with significant radiation

___ contains PHOTON USE commands for displaying results

___ uses SCRS option for density

___ uses PLANT to create extra Fortran coding

___ cartesian grid

Q1
r409
Wall-fired model furnace: P-1 radiation

___ contains PHOTON USE commands for displaying results

___ two-phase flow

___ uses ideal-gas law for density

___ uses PLANT to create extra Fortran coding

___ cartesian grid

** stresses in solids **

Q1
s101
Cube in X-direction tension; S101

___ NY = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s102
Cube in Y-direction tension; S102

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s103
CUBEINX-DIRECTIONTENSION

___ NX = 1

___ NY = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s104
Pressurised long cylinder; 1Dy

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s105
Stress in a rotating disk; S105

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s106
Stress in a rotating disk; 1Dy

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ contains lines to be read by EARTH via READQ1

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

Q1
s111
bent beam in plane strain; s220

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ uses LONGNAME

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s200
2D Plate with polynomial stress function

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ uses LONGNAME

___ cartesian grid

Q1
s201
2D xy Plate with square hole; s201

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s202
2D xy Plate with CIRCULAR hole; s202

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ cartesian grid

Q1
s203
Polar Plate with CIRCULAR hole

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s204
2D xy 2-material plate in tension; s204

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ cartesian grid

Q1
s205
2D xz plate in z-direction tension; s205

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s206
2D yz plate in z-direction tension; s206

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s208
2D xy 2-material plate in tension; s208

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ contains initial values set by In-Form

___ cartesian grid

Q1
s209
2D xy plate in compression; two material

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ contains initial values set by In-Form

___ cartesian grid

Q1
s210
2D xy Plate of two materials + TEM; s210

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ cartesian grid

Q1
s211
2D bent beam in plane strain; s211

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ uses LONGNAME

___ material indices set via SPEDAT

___ cartesian grid

Q1
s212
Plate; 2D[xy]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s220
bent beam in plane strain; s220

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s221
square channel;2D[xy]

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s222
Pressurised long cylinder; [X,Y]

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s223
Pressurised long cylinder; [Y,Z]

___ cylindrical grid

___ NX = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s224
Pressurised cylinder [R,Z] with Hole;S22

___ cylindrical grid

___ NX = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

Q1
s225
Pressurised cylinder with Hole and not z

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

Q1
s226
Centre-Heated, Edge-Cooled Block

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ computes heat transfer

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
s227
Multi-Physics. Reyno= 1000. Unit=12

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL GAP

___ computes WALL DISTANCE

___ activates IMMERSOL

___ computes heat transfer

___ LVEL model

___ computes stresses and strains in solids

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ uses LONGNAME

___ material indices set via SPEDAT

___ cartesian grid

Q1
s228
Pressurised long cylinder; [X,Y]

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s230
Plate with square hole;2D[xy]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s240
square channel;2D[xy]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s242
square channel;2D[xy]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s250
square channel + TEM1;2D[xy]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s251
Plate with square hole;2D[xy]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s252
square channel + TEM1;2D[xy]

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s254
square channel + TEM1;2D[xy]

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s258
Plate of two Horizontal materials; 2D[xy

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

___ Q1 is used as PROPS file via MATFLG entries

Q1
s259
Plate of two Vertical materials; s259

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ contains initial values set by In-Form

___ cartesian grid

Q1
s260
BiPlate of two materials + TEM; 2D[xy]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
s261
Stress in a rotating 2D[x,y] disk; S261

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s262
Model of turbine rotor; S262

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s263
Model of turbine rotor with big Blades

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s301
3D Prismatic bar + gravity force

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s302
1/2/3D thermal stress in a cub; s302

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ contains initial values set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
s303
3D block in y-direction compression;S303

___ contains PHOTON USE commands for displaying results

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s304
3D TORSION of beam; s304

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s305
3D TORSION of thin Beam; s305

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s307
3D block in y-direction compression; s30

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses LONGNAME

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s351
3D Prismatic bar + gravity force

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s352
1/2/3D thermal stress in a cube; s352

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains initial values set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s401
2D Flow Past A Bent Solid Plate; S401

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ plate porosity set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
s402
2D Flow Past A Bent Solid Plate; S402

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ plate porosity set via SPEDAT

___ uses In-Form STORED command

___ cartesian grid

Q1
s501
Cube in x-direction tension; S501

___ NY = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s502
Cube in y-direction tension; S502

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s504
Pressurised long cylinder; 1Dy

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s508
USP: Stress in a 2D rotating disk; S508

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s511
USP: 2D xy plate in tension;U501

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s512
USP: 2D xy Hot Bi-metallic plate

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s513
USP.USP: 2D Plate in tension with FY=var

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s514
USP:2D xy Plate with CIRCULAR hole; us20

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
s515
USP: 2D xy Plate with square hole; U505

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s516
USP: Cooled long cylinder

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s517
USP: Pressurised long cylinder;U507

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s518
USP: Stress in a 2D rotating disk; S508

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s550
3D Thermal Stress In BLADE

___ computes heat transfer

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s600
2D Plate with polynomial stress function

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s601
2D xy Plate with square hole; S601

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
s602
mechanical stress in a cube

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s603
Polar Plate with CIRCULAR hole

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s604
2D xy 2-material plate in tension; S604

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s605
2D xy plate in y-direction tension; S605

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s606
THERMal stress in a cube

___ NX = 1

___ NY = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s622
Pressurised long cylinder [X,Y]

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ material indices set via SPEDAT

Q1
s624
Pressurised long cylinder with hole;S624

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

Q1
s630
Cooled long cylinder [polar]

___ cylindrical grid

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

Q1
s631
Cooled long cylinder [Cartesian]

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s660
Bi-Metalic Plate of two materials + TEM

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
s661
Stress in a rotating 2D[x,y] disk; S661

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s662
Model of turbine rotor; S662

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s670
Wave in 1DX free beam; S670

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s671
Wave in fixed 1D x beam; S671

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s672
2D wave in "T" beam; S672

___ time-dependent

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
s673
Free wave in 2D "tuning-fork" model; S67

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s674
The steep propagating 1DY wave; S674

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s675
The steep propagating 2DXY wave; S675

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains initial values set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s698
Cartesian Pressurised long cylinder;S699

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s699
Cartesian Pressurised long cylinder;S699

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains initial values set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s701
3D Prismatic bar + gravity force; s701

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s702
1/2/3D thermal stress in a cub; s702

___ NY = 1

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ contains initial values set by In-Form

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
s703
3D block in y-direction compression;S703

___ contains PHOTON USE commands for displaying results

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s704
3D TORSION of beam; s704

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s705
3D TORSION of thin Beam; s705

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s799
2D VR-bar + gravity force; s799

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s801
2D Fluid flow around an beam; S801

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s802
Thermal Stress In Heated/Cooled Block

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ LVEL model

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s803
2D Fluid flow around an elastic beam;S80

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s804
heat exchanger with stress

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

Q1
s901
Full Steady 2DXY Piezoelectric; S901

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

Q1
s902
Transient 2DXY Piezoelectric; S902

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ time-dependent source set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
s903
Transient 2DXY Piezoelectric; S903

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ time-dependent source set by In-Form

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
s999
Steady 2DXY Piezoelectric; S903

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ cartesian grid

** advanced turbulence **

Q1
t100
CHEN-KIM K-E_1D PLANE COUETTE FLOW :T100

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ Chen-Kim high-Re model

___ cartesian grid

Q1
t101
CHEN-KIM K-E DEVELOPED CHANNEL FLOW:T101

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ Chen-Kim high-Re model

___ uses fully-developed-flow option

___ cartesian grid

Q1
t102
RNG K-E_1D DEVELOPED PIPE FLOW:T102

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ RNG high-Re model

___ uses fully-developed-flow option

Q1
t103
K-OMEGA_BKWRD FACING STEP Y-X :T103

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
t104
CHEN KIM K-E MODEL_PARAB PLANE JET :T104

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ Chen-Kim high-Re model

___ cartesian grid

Q1
t105
CHEN KIM K-E MODEL_PARAB ROUND JET :T105

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ Chen-Kim high-Re model

Q1
t106
RNG K-E FLOW IN TURNAROUND DUCT :T106

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ RNG high-Re model

___ cartesian grid

Q1
t200
VAN DRIEST_1D PLANE COUETTE FLOW :T200

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ Prndtl Mixing-Length model

___ cartesian grid

Q1
t201
VAN DRIEST_1D DEVELOPED PIPE FLOW :T201

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Prndtl Mixing-Length model

Q1
t202
VAN DRIEST_2D PARAB BOUNDARY LAYER :T202

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ Prndtl Mixing-Length model

___ cartesian grid

Q1
t204
VAN DRIEST_2D-YX ELLIP CHANNL FLOW :T204

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ Prndtl Mixing-Length model

___ cartesian grid

Q1
t205
LAM-BRE KE_1D PLANE COUETTE FLOW :T205

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ Lam=Bremhorst-Re model

___ cartesian grid

Q1
t206
LAM-BRE KE_1D DEVEL CHANNL FLOW :T206

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ Lam=Bremhorst-Re model

___ uses fully-developed-flow option

___ cartesian grid

Q1
t207
K-OMEGA_1D DEVELOPED PIPE FLOW :T207

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ Wilcox-Kolmogorov low-Re model

___ Q1 is used as PROPS file via MATFLG entries

___ uses fully-developed-flow option

___ material indices set via SPEDAT

Q1
t208
LAM-BRE K-E BKWRD-FACING STEP Y-X :T208

___ contains Autoplot USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ Lam=Bremhorst-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
t211
LAM-BRE K-E_2D PARABOLIC PIPE FLOW :T211

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ solves for LTLS

___ computes WALL DISTANCE

___ Lam=Bremhorst-Re model

Q1
t212
LAM-BRE K-E_2D PARAB BNDRY LAYER :T212

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ solves for LTLS

___ computes WALL DISTANCE

___ Lam=Bremhorst-Re model

___ cartesian grid

Q1
t213
CHEN-KIM_2D ABRUPT PIPE EXPANS :T213

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ CHEN-Kim low-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
t214
LAM-BRE K-E TURB. FLOW IN U-DUCT :T214

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ solves for LTLS

___ computes WALL DISTANCE

___ Lam=Bremhorst-Re model

___ cartesian grid

Q1
t215
LAM-BRE_2D Y-Z NOPOR CHANNEL TEST :T215

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ Lam=Bremhorst-Re model

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
t216
LAM-BRE_2D Y-Z POROS CHANNEL TEST :T216

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ Lam=Bremhorst-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
t217
LAM-BRE_2D Y-Z CONJ CHANNEL TEST :T217

___ NX = 1

___ computes heat transfer

___ uses volumetric block correction

___ computes WALL DISTANCE

___ solves for LTLS

___ Lam=Bremhorst-Re model

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
t300
2D Turbulent Free Convection In A Cavity

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ uses density linear in 1/Tabs

___ Lam=Bremhorst-Re model

___ involves buoyancy

___ cartesian grid

Q1
t301
2D BLUFF-BODY STABILISED METHANE JET

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ use special GROUND convgr

Q1
t302
KO_2D FLOW THROUGH A ORIFICE PLATE :T302

___ contains PHOTON USE commands for displaying results

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses LONGNAME

___ material indices set via SPEDAT

Q1
t303
YAP_KE 2D IMPINGING ROUND JET: T303

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ solves for LTLS

___ computes WALL DISTANCE

Q1
t304
CK KE_1D PIPE POWER-LAW FLUID :T304

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ CHEN-Kim low-Re model

___ uses fully-developed-flow option

Q1
t305
KE_PIPE FLOW OF A BINGHAM FLUID: T305

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ uses fully-developed-flow option

Q1
t306
T306: 2D KE ROUGH-WALL BOUNDARY LAYER

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ uses conjugate-gradient solver

___ cartesian grid

Q1
t400
2S K-E MODEL_1D PLANE COUETTE FLOW :T400

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ Two-layer high-Re model

___ cartesian grid

Q1
t401
2S K-E MODEL_1D DEVELOPED PIPE FLOW:T401

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ Two-layer high-Re model

Q1
t402
2S K-E MODEL_1D DVLPD CHANNEL FLOW :T402

___ NX = 1

___ NZ = 1

___ Two-layer high-Re model

___ cartesian grid

Q1
t403
2S K-E MODEL_PARABOLIC PLANE JET :T403

___ NX = 1

___ steady parabolic flow

___ Two-layer high-Re model

___ cartesian grid

Q1
t404
2S K-E MODEL_PARABOLIC ROUND JET :T404

___ cylindrical grid

___ NX = 1

___ steady parabolic flow

___ Two-layer high-Re model

Q1
t405
2S K-E MODEL_BKWRD FACING STEP Y-X :T405

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ Two-layer high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
t406
2S K-E_PLANE FLOW, TURNAROUND DUCT :T406

___ NX = 1

___ body-fitted coordinates

___ Two-layer high-Re model

___ cartesian grid

Q1
t500
LAMINAR TEST OF EGWF - SOWF VARIANT

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
t501
LAMINAR TEST OF EGWF - SOWF VARIANT

___ contains PHOTON USE commands for displaying results

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
t502
1D Turb Pipe Flow + Heat Trans

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ uses fully-developed-flow option

Q1
t503
USE OF EARTH GENERATED WALL-FUNCTIONS

___ contains PHOTON USE commands for displaying results

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ material indices set via SPEDAT

___ cartesian grid

Q1
t600
RSTM_1DY DEVELOPED CHANNEL FLOW :T600

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ uses fully-developed-flow option

___ material indices set via SPEDAT

___ cartesian grid

Q1
t602
RSTM_1D DEVELOPED PIPE FLOW :T602

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ uses fully-developed-flow option

___ material indices set via SPEDAT

Q1
t603
RSTM_2D PARABOLIC PLANE JET :T603

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
t604
RSTM_2D PARABOLIC PLANE WALL JET :T604

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
t605
RSTM_1D ROTATING PIPE FLOW :T605

___ contains Autoplot USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ NZ = 1

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ uses fully-developed-flow option

___ material indices set via SPEDAT

Q1
t606
RSTM_1DY PLANE COUETTE FLOW :T606

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NZ = 1

___ cartesian grid

Q1
t607
RSTM_2DY-Z PARABOLIC CHANNEL :T60

___ NX = 1

___ steady parabolic flow

___ cartesian grid

Q1
t608
RSTM_3D DVLPD DUCT FLOW/HEAT TRANS :T608

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ uses fully-developed-flow option

___ cartesian grid

Q1
t609
RSTM_2D IMPINGING ROUND JET :T609

___ cylindrical grid

___ NX = 1

Q1
t610
2D LES SQUARE CYLINDER- steady precursor

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
t611
2D LES SQUARE CYLINDER- unsteady run

___ time-dependent

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
t900
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

Q1
t950
No title has been set for this run.

___ NX = 1

___ NY = 1

___ NZ = 1

___ cartesian grid

** two-phase flow**

Q1
w100
EQUVEL input-file fragment :W100

___ NX = 1

___ NY = 1

___ NZ = 1

___ two-phase flow

___ both phases have equal velocity components

___ cartesian grid

Q1
w350
1D STEADY BOILING IN PIPE: W350

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w351
1D-Z PIPE BOILING PH1-LIQ,PH2-GAS: W351

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ two-phase flow

___ cartesian grid

Q1
w352
1D-Z PIPE BOILING PH1-GAS,PH2-LIQ: W352

___ contains Autoplot USE commands for displaying results

___ NX = 1

___ NY = 1

___ two-phase flow

___ cartesian grid

Q1
w370
2D STEADY BOILING IN PIPE: W370

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ two-phase flow

___ involves buoyancy

Q1
w371
AREA RESTRICTION AT QUARTER LENGTH: W371

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
w372
2D STEADY BOILING IN PIPE: W370

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ two-phase flow

___ involves buoyancy

Q1
w410
0D UNSTEADY BOILING IN VESSEL: W410

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w411
CLOSED-VESSEL BOILING, L=F(P): W411

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w412
0D BOILING IN VESSEL+PRESS RELIEF: W412

___ time-dependent

___ NX = 1

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w421
SUDDEN TILTING OF TWO-FLUID CHANNEL:W421

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ involves buoyancy

___ cartesian grid

Q1
w422
1D TRANSIENT THERMOSYPHON : W422

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ involves buoyancy

___ cartesian grid

Q1
w423
fluids moving in opposite directions:423

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w425
1D TRANSIENT PIPE FILLING : W425

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w427
THE TILTING OF A BOX : W427

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w428
Oil slick in a gulf with wind: W428

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ two-phase flow

Q1
w430
transient air-lift pump :W430

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ two-phase flow

___ uses isentropic-gas law for density

Q1
w440
AREA RESTRICTION AT QUARTER LENGTH: W440

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
w441
TRANSIENT 2PH FLOW WITH MOVING WALL:W441

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w468
EQUVEL input-file fragment :W100

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ both phases have equal velocity components

___ cartesian grid

Q1
w568
PLANE 2PHS FLOW IN TURNAROUND DUCT: W568

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ cartesian grid

Q1
w569
2PHS NON NEWTONIAN FLOW IN DUCT : W569

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ cartesian grid

Q1
w570
MONOPROPELLANT ROCKET : W570

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ cartesian grid

Q1
w571
1D PARTICLE FLOW (cint=grnd7 test): W571

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w573
ROUND JET;K-E 2PHS TURB MODULATION: W573

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
w574
2PH BACKWARD-FACING-STEP K-E MODEL: W574

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
w575
EFFECT OF SWIRL : W575

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
w576
W574 with heat transfer; EQUVEL=T : W576

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ both phases have equal velocity components

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
w577
2 PHASE DEMO - DP = 1.0E-4 : W577

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w578
2PHS FLOW IN TURNAROUND DUCT : W578

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ cartesian grid

Q1
w580
2 PH BACKWARD STEP,WITH GRAVITY :W580

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
w581
2-PHASE STEADY SEDIMENTATION; PARAB:W581

___ contains PHOTON USE commands for displaying results

___ NY = 1

___ steady parabolic flow

___ two-phase flow

___ cartesian grid

Q1
w700
W576 with extra cold light-phase inflow

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ both phases have equal velocity components

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
w771
1-D TRANSIENT SEDIMENTATION :W771

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w772
AS FOR RUN 771 BUT IN Y DIRECTION : W772

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w773
1-D SEDIMENTATION; parametric study:W773

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w775
2D channel flow as in tray column :W775

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w799
3D SHELL-AND-TUBE CONDENSER : W799

___ contains PHOTON USE commands for displaying results

___ two-phase flow

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
w800
AS FOR CASE W799 BUT TRANS. : W800

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ two-phase flow

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
w801
ALLOW FOR METAL CAPACITY : W801

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ two-phase flow

___ uses neighbour patch (name = NE...)

___ cartesian grid

Q1
w802
3D STEAM GENERATOR : W802

___ contains PHOTON USE commands for displaying results

___ cylindrical grid

___ two-phase flow

Q1
w870
CF=1.E7 RHO2=10. POUT=-.5 W870

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w871
CF=1.E7 RHO2=10. POUT=3.0 : W871

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w872
CF=1.E7 RHO2=10. POUT=6.0 : W872

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w873
CF=0. RHO2=1.E3 POUT=-.5 : W873

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w874
CF=0. RHO2=10. POUT=-.5 : W874

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w875
CF=2.0 RHO2=10. POUT=-.5 : W875

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w876
CF=10. RHO2=10. POUT=-.5 : W876

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w877
CF=1.E3 RHO2=10. POUT=-.5 : W877

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w878
CF=1.E3 RHO2=1.0 POUT=-.5 : W878

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w879
CF=1.E7 RHO2=1.E2 POUT=-.5 : W879

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w880
CF=1.E7 RHO2=1.E3 POUT=-.5 : W880

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w885
Boiling Droplets in a Duct

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ body-fitted coordinates

___ two-phase flow

___ involves buoyancy

___ cartesian grid

Q1
w886
Boiling 2-Phase Flow in S-bend Duct:W886

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ body-fitted coordinates

___ two-phase flow

___ cartesian grid

Q1
w887
BOILING , NO GRAVITY : W887

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w888
BOILING , LONGITUDINAL GRAVITY : W888

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w889
BOILING ,TRANSVERSE GRAVITY : W889

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w890
MONOPROPELLANT ROCKET : W890

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ cartesian grid

Q1
w891
PROBLEM 2.4. SEDIMENTATION : W891

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w892
SEDIMENTATION WITH RHO2=0.2 : W892

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w893
SEDIMENTATION WITH SMALLER FRICTION W893

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w894
WATER DISPLACED BY AIR FROM ABOVE :W894

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w895
WATER DISPLACED BY AIR FROM BELOW :W895

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w896
COMPRESSION OF AIR BY WATER :W896

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ cartesian grid

Q1
w897
BOILING , NO GRAVITY : W897

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w898
BOILING , LONGITUDINAL GRAVITY : W898

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w899
BOILING ,TRANSVERSE GRAVITY : W899

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w900
STRATIFIED FLOW, CASE 1 CHANNEL : W900

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w901
STRATIFIED FLOW, CASE 2 PIPE : W901

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w902
TRANSIENT DRAINAGE FROM A PIPE W902

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w903
Kelvin-Helmholtz instability : W903

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w904
KELVIN-HELMHOLTZ; RHO1=1.01 : W904

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w905
KELVIN-HELMHOLTZ; RHO2=1.10 : W905

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w906
PROBLEM 3F RHO2=2.0 : W906

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w907
PROBLEM 3F RHO2=10.0 : W907

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w908
PROBLEM 3F RHO2=1.0;U2=0.;U1=2. : W908

___ contains Autoplot USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w909
TEE-JUNCTION : W909

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w917
PROBLEM 4.1 - 2D SEDIMENTATION : W917

___ time-dependent

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w918
STIRRED TANK; RUN1 STRONG STIRRING: W918

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
w919
STIRRED TANK; RUN2 WEAK STIRRING : W919

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
w920
STIRRED TANK; RUN3 NO STIRRING : W920

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ cylindrical grid

___ NX = 1

___ two-phase flow

Q1
w971
Rock2; 2D MONOPROPELLANT ROCKET :W971

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ two-phase flow

___ uses SHADOW method of size calculation

___ cartesian grid

Q1
w972
Stafford's saline-layer experiment

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

Q1
w974
Mixing in a duct; Two-Fluid Model :W97

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses two-fluid turbulence model

___ material indices set via SPEDAT

___ cartesian grid

Q1
w975
RUN1 COUETTE BUOY CONST=1.E2 : 975

___ time-dependent

___ NX = 1

___ NZ = 1

___ two-phase flow

___ uses two-fluid turbulence model

___ involves buoyancy

___ cartesian grid

Q1
w976
Backward-Facing Step;2-Fluid Model: 976

___ NX = 1

___ two-phase flow

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses two-fluid turbulence model

___ material indices set via SPEDAT

___ cartesian grid

Q1
w977
Steady 2-fluid ducted flame; parab:W977

___ contains PHOTON USE commands for displaying results

___ NX = 1

___ steady parabolic flow

___ two-phase flow

___ uses ideal-gas law for density

___ uses two-fluid turbulence model

___ chemical sources

___ cartesian grid

Q1
w978
1D PISTON-IN-CYLINDER; 2-FLUID : 978

___ time-dependent

___ NX = 1

___ NY = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ uses two-fluid turbulence model

___ cartesian grid

Q1
w979
1-D transient shock-induced prpgtn :W979

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NY = 1

___ NZ = 1

___ two-phase flow

___ uses isentropic-gas law for density

___ chemical sources

___ uses two-fluid turbulence model

___ In-Form used to "MAKE" variables

___ uses In-Form STORED command

___ special print-out activated via SPEDAT

___ cartesian grid

Q1
w980
Flame spread in duct, 1D analysis

___ contains Autoplot USE commands for displaying results

___ NY = 1

___ NZ = 1

___ two-phase flow

___ cartesian grid

** USP**

Q1
u001
USP. 3D Steady Heat Conduction In Cube

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u002
3D Steady Heat Conduction In Cube

___ computes heat transfer

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u003
USP. Conductivity task on divided grid

___ computes heat transfer

___ uses UnStructured PHOENICS

___ uses In-Form STORED command

___ cartesian grid

Q1
u004
2D HEAT CONDUCTION WITH SPACE DEPENDENT

___ contains PHOTON USE commands for displaying results

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ uses In-Form STORED command

___ cartesian grid

Q1
u005
USP 2D UNSTEADY DIFFUSION PROBLEM

___ contains PHOTON USE commands for displaying results

___ time-dependent

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u006
Flow in porous media. USP Test 6.

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u007
USP labirinth.

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u008
USP labirinth with divided grid.

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u009
USP labirinth with conjugate heat transf

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u010
XY Duct, USP Test

___ NZ = 1

___ uses UnStructured PHOENICS

___ uses In-Form STORED command

___ cartesian grid

Q1
u011
USP. Test 11

___ NZ = 1

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u012
Pot. Flow; Perpendicular Plate. USP Test

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u013
Flow Over Double-Wedge Airfoil. USP Test

___ NX = 1

___ solves for VELOCITY POTENTIAL

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u014
2DXZ Duct Flow; Effect Of Pr No. USP Tes

___ NY = 1

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u015
2D Laminar B-Layer On A Hot Wall

___ NX = 1

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u016
USP. Temperature in uniform flow

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ uses In-Form STORED command

___ cartesian grid

Q1
u017
USP. Laminar flow over step.

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u018
2D Flow in LID-DRIVEN cavity

___ NZ = 1

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u019
USP. KE model

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u020
Test 20. Laminar flow around of cylinder

___ NY = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u021
Test 21 Flow around of cylinder (fine gr

___ NY = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u022
F-1 Car; Balsa Wood Blank; Visc. Flow

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u023
Test 23. Flow around small body.

___ NY = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u024
Test 24. Simple shapes by box In-Form ob

___ computes heat transfer

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ contains initial values set by In-Form

___ uses In-Form BOX function

___ cartesian grid

Q1
u025
Test 25. Flow around small body on divid

___ NY = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u026
USP Test 26. Flow around small sphere.

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u027
Laminar flow around of pyramid.

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u028
Two spheres In A Uniform Stream

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u029
Turbulent flow near the wall, ENUT=const

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u030
Flow in pipe. Effective viscosity.

___ uses UnStructured PHOENICS

___ material indices set via SPEDAT

___ cartesian grid

Q1
u031
Cubical Building, uniform turbulent Flow

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u032
USP: T channel+Corr NUL.

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u033
Flow around of pyramid.

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u034
Flow in closed cavity.

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u035
Turb. flow in Square Cavity With Moving

___ NZ = 1

___ uses UnStructured PHOENICS

___ uses In-Form STORED command

___ cartesian grid

Q1
u036
XY Duct, USP+SP Test

___ NZ = 1

___ cartesian grid

Q1
u037
2D CHANNEL

___ NZ = 1

___ uses UnStructured PHOENICS

___ uses In-Form STORED command

___ cartesian grid

Q1
u101
Couette Flow with Exact solution

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains properties set by In-Form

___ contains sources set by In-Form

___ cartesian grid

Q1
u103
Flow in channel with non-uniform viscosi

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains properties set by In-Form

___ contains sources set by In-Form

___ cartesian grid

Q1
u105
Stagnation point Flow

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains sources set by In-Form

___ cartesian grid

Q1
u107
Cavity with moving lid and heat exchange

___ NZ = 1

___ uses UnStructured PHOENICS

___ cartesian grid

Q1
u109
Turn-around duct, laminar flow

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u110
Heat exchange in Tube Bank, trub. flow

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ contains properties set by In-Form

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u111
Cubical Building, K-E model, uniform Flo

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u113
Flow over backward step. LVEL model

___ NZ = 1

___ computes WALL GAP

___ solves for LTLS

___ computes WALL DISTANCE

___ uses UnStructured PHOENICS

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u115
STAGUS: Turn-around duct

___ NZ = 1

___ solves for LTLS

___ computes WALL DISTANCE

___ uses UnStructured PHOENICS

___ LVEL model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u116
Turn-Around Duct with fastener. K-E mode

___ NX = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u201
Axi-symmetrical heat-conduction.

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u202
Axi-symmetrical heat-conduction.

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u501
USP: 2D xy plate in tension

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u502
USP: 2D xy Hot Bi-metallic plate

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u503
2D Plate in tension with FY=var

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u504
USP:2D xy Plate with CIRCULAR hole

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ material indices set via SPEDAT

___ uses In-Form STORED command

___ contains sources set by In-Form

___ cartesian grid

Q1
u505
USP: 2D xy Plate with square hole

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u506
USP: Cooled long cylinder

___ NZ = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u507
USP: Pressurised long cylinder

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u508
USP: Stress in a 2D rotating disk

___ NZ = 1

___ uses UnStructured PHOENICS

___ Q1 is used as PROPS file via MATFLG entries

___ computes stresses and strains in solids

___ uses In-Form STORED command

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
u701
Body with large Conductivity in uniform

___ NY = 1

___ computes heat transfer

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u710
Turn-around duct; Fine Grid

___ NZ = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
u711
2D Cylinder; 1,10,20 Grid

___ NX = 1

___ uses UnStructured PHOENICS

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

** Chemical vapour deposition**

Q1
d100
ASM Single Wafer Si Reactor - Wilke:D100

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d101
ASM Single Wafer Si Reactor - S-M :D101

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d102
ASM Single Wafer Si Reactor-Soret :D102

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d103
ASM Single Wafer Si3N4 Reactor :D103

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses CVD option for density

___ LVEL model

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d104
Tungsten Reactor - normal inlet :D104

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d105
Tungsten Reactor - showerhead inlet:D105

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d106
Simple Reactor Test Case :D106

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses CVD option for density

___ LVEL model

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d107
Batch Reactor Test Case :D107

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d108
Batch Reactor - super wafers :D108

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d109
Parallel Plate Plasma Reactor :D109

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses CVD option for density

___ LVEL model

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d201
SIMPLE FLOW TUBE TEST CASE - BATCH :D201

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d202
SIMPLE FLOW TUBE TEST CASE- COMPLEX:D202

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d203
Parallel Plate Plasma Reactor :D203

___ cylindrical grid

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

Q1
d204
RADIATION TEST CASE - AXISYMMETRIC :D204

___ cylindrical grid

___ NX = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

Q1
d205
RADIATION TEST CASE - XY :D205

___ NZ = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
d206
RADIATION TEST CASE - XZ :D206

___ NY = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
d207
RADIATION TEST CASE - YZ :D207

___ NX = 1

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
d208
RADIATION TEST CASE - XYZ :D208

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ material indices set via SPEDAT

___ cartesian grid

Q1
d209
SHOWER PLATE TEST- X :D209

___ NY = 1

___ uses volumetric block correction

___ computes heat transfer

___ Q1 is used as PROPS file via MATFLG entries

___ CVD (chemical vapour deposition)

___ material indices set via SPEDAT

___ cartesian grid

** FLAIR (air and heat flow in buildings**

Q1
i101
Single room with a fire: I101

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i102
Smoke in a chimney: I102

___ time-dependent

___ NZ = 1

___ body-fitted coordinates

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i103
Fire in a building: I103

___ body-fitted coordinates

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i104
Fire in an underground train: I104

___ NZ = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i105
Air-Conditioning a supermarket: I108

___ computes heat transfer

___ solves for LTLS

___ computes WALL DISTANCE

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i106
Cleansing station: I106

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ contains sources set by In-Form

___ cartesian grid

Q1
i107
Exhaust dispersion near tower block:I107

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i108
A room with Sunlight

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i109
A computer room

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i110
A room with two radiators

___ computes WALL GAP

___ activates IMMERSOL

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i111
Room comfort

___ computes WALL GAP

___ activates IMMERSOL

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i112
Fire in a room

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i120
YZ TEST: I120

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i121
Transient XY Test: I121

___ time-dependent

___ NZ = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i128
XY Test: I128

___ NZ = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i129
YZ TEST: I129

___ NX = 1

___ uses volumetric block correction

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i130
1 Round_Diffuser_in_XY_plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i131
Round Diffuser in XY plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i132
Vortex Diffuser in XY plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i133
Square Diffuser in XY plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i134
4-way Directional Diffuser in X-Y plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i135
2 Grille Diffusers in X plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i136
Displacement Diffuser

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i137
Jetfan in XY plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i138
Round Diffuser in XY plane

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ FLAIR, for heat and air flow in buildings

___ cartesian grid

Q1
i200
My first flow simulation

___ solves for LTLS

___ computes heat transfer

___ computes WALL DISTANCE

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ contains sources set by In-Form

___ cartesian grid

Q1
i201
Room air flows; I201; zUP=T

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ contains sources set by In-Form

___ material indices set via SPEDAT

___ cartesian grid

Q1
i202
Reactor room: I202

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i203
Hackney hall: I203

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i204
Lecture theatre: I204

___ computes heat transfer

___ uses ideal-gas law for density

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i205
Computer room: I205

___ computes heat transfer

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i206
Flow inside a building: I206

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i207
Viking Ed Compressor Hazard: I207

___ computes heat transfer

___ uses ideal-gas law for density

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i208
Flow over Big Ben

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ cartesian grid

Q1
i209
Fire-Spray in a compartment

___ time-dependent

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ Chen-Kim high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ material indices set via SPEDAT

___ time-dependent source set by In-Form

___ contains sources set by In-Form

___ cartesian grid

Q1
i210
Food Court CFD Simulation: no vents

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
i211
Food Court CFD Simulation: with vents

___ solves for LTLS

___ computes WALL DISTANCE

___ computes heat transfer

___ uses ideal-gas law for density

___ Prndtl Mixing-Length model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ material indices set via SPEDAT

___ cartesian grid

Q1
i212
ASHRAE Displacement Diffuser

___ contains Viewer USE commands for displaying results

___ computes heat transfer

___ RNG high-Re model

___ fiinit(prps) = -1, so use PIL properties for domain fluid

___ involves buoyancy

___ FLAIR, for heat and air flow in buildings

___ uses In-Form STORED command

___ material indices set via SPEDAT

___ cartesian grid

Q1
i213
Fire-Spray in a compartment

___ contains Viewer USE commands for displaying results

___ solves for LTLS

___ computes WALL DISTANCE

___ computes WALL GAP