Contents

• 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
• MIGAL (multi-grid solver)
• advance radiation
• virtual reality
• PLANT
• stresses in solids
• Chemical vapour deposition
• Furnace
• TACT: natural-draft cooling towers
• Miscellaneous special-purpose programs
• UnStructured PHOENICS - USP

Core library

Q1 100 3D Steady Heat Conduction In Cube
___ contains PHOTON USE commands for displaying results

Q1 102 3D Heat Cond, Slab-Wise Solver

Q1 103 3D Heat Cond. Gauss-Seidel Solver
___ contains PHOTON USE commands for displaying results
___ uses Gauss-Seidel solver

Q1 104 3D Unsteady Heat Cond. Thick Pipe
___ contains PHOTON USE commands for displaying results

Q1 105 1D TRANS FOR H1 WITH FLOW + SOURCE
___ contains PHOTON USE commands for displaying results

Q1 106 Rad Transf From Hot Wall,TGAS=CST

Q1 109 1D Trans Laminar Flame Propagation
___ contains PHOTON USE commands for displaying results
___ chemical sources

Q1 110 Trans Heat Conduction-Uniform Fin

Q1 111 Fin Non-Uniform Cross-Section

Q1 112 Fin Non-Uniform Conductivity

Q1 113 Fin Non-Uniform Specific Heat

Q1 114 Fin Non-Uniform Surface Coeff.

Q1 115 Pot. Flow; Perpendicular Plate
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL

Q1 116 Flow Over Double-Wedge Airfoil
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ material indices set via SPEDAT

Q1 117 Comp Flow Over Double-Wedge Airfoil
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ material indices set via SPEDAT

Q1 118 Transient Tunnel Heat Transfer
___ 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

Q1 120 Pipe Flow; Effect Of Prandtl No.
___ contains PHOTON USE commands for displaying results

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

Q1 122 Pipe Flow With Axial Free Convec
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 123 Water In A Heated Aluminium Pipe
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 124 Internally-Finned Pipe; Laminar
___ contains PHOTON USE commands for displaying results

Q1 125 Free Convection In Horizontal Pipe
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 126 Pot. Flow; Inclined Plate
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ contains sources set by In-Form

Q1 127 Irrotational Flow; Inclined Plate
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 128 F-1 Car; Balsa Wood Blank; Pot. Flow
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 129 Pot. Flow; In-Form-Created Source-Sink
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ contains sources set by In-Form

Q1 130 Steady laminar rotating-disc flow
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses In-Form STORED command

Q1 133 Case 123 With Mercury, Not Water
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 134 Case 123 With Freon, Not Water
___ contains PHOTON USE commands for displaying results
___ 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

Q1 136 Free Convec From Hot Vertical Wall
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ In-Form sets the z-direction grid

Q1 137 Free Convec From Plate In Cross Flow
___ involves buoyancy

Q1 138 3D Boundary Layer In A Corner
___ contains PHOTON USE commands for displaying results

Q1 140 Case 123 With Steel, Not Aluminium
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 141 Case 123 With Glass, Not Aluminium
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 142 Case 123 With LVEL Model
___ contains PHOTON USE commands for displaying results
___ 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
___ computes heat transfer
___ material indices set via SPEDAT

Q1 144 Case 142, Parabolic, With Glass
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ LVEL model
___ material indices set via SPEDAT

Q1 145 Residence-Time Demonstration
___ material indices set via SPEDAT

Q1 150 Plane Jet;Mixing Length Model;Para
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model

Q1 151 Plane Jet;K-L Turbul Model;Para
___ contains PHOTON USE commands for displaying results

Q1 152 Plane Jet; K-E Turbu Model; Para
___ contains PHOTON USE commands for displaying results

Q1 153 Round Jet;Mixing Length Model;Para
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model

Q1 154 Round Jet; K-L Turbu Model; Parab
___ contains PHOTON USE commands for displaying results

Q1 155 Round Jet; K-E Turbu Model; Parab
___ contains PHOTON USE commands for displaying results

Q1 156 Inclined Supersonic Flow In A Duct
___ contains PHOTON USE commands for displaying results

Q1 157 2D CHANNEL FLOW - NEWTONIAN FLUID

Q1 158 2D Flow In A Supersonic Diffuser
___ contains PHOTON USE commands for displaying results

Q1 159 2D Sonic Underexpanded Round Jet
___ contains PHOTON USE commands for displaying results

Q1 160 3D Supersonic Underexpanded Square Jet
___ contains PHOTON USE commands for displaying results

Q1 161 2D Supersonic Rocket Exhaust Plume
___ contains PHOTON USE commands for displaying results

Q1 162 gas-release with wind angle = 0.785398
___ 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

Q1 163 Steady conduction in electrically-heated
___ computes heat transfer
___ material indices set via SPEDAT

Q1 170 Channel Flow; Mixing-Length Model
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model

Q1 171 Channel Flow K-L Model
___ contains PHOTON USE commands for displaying results

Q1 172 Channel Flow K-EPS Model
___ contains PHOTON USE commands for displaying results

Q1 173 Pipe Flow M-Length Turb Model;Para
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model

Q1 174 Pipe Flow K-L Model;Parabolic
___ contains PHOTON USE commands for displaying results

Q1 175 Pipe Flow K-E Turbul Model;Parab
___ contains PHOTON USE commands for displaying results

Q1 176 Channel Flow K-EPS Turblnc. Model
___ contains PHOTON USE commands for displaying results

Q1 180 No title has been set for this run.

Q1 190 Boundary Layer Mixing-Length Model
___ Prndtl Mixing-Length model

Q1 191 Boundary Layer K-L Turbulen Model

Q1 192 Boundary Layer K-E Turbulen Model
___ contains PHOTON USE commands for displaying results

Q1 193 Wall Jet K-E Turbu Model; Parab

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

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

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

Q1 210 1D Hydrostatic; X-Direction

Q1 213 Hydrostatic Equil In Annular Cav.

Q1 215 1D Venturi, Y-Direction

Q1 217 1D 30-Degree X-Direction Diffuser

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

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

Q1 220 Free Vortex In 2 Dimensions

Q1 221 Rectilinear Flow In Polar Quadrant
___ contains PHOTON USE commands for displaying results

Q1 222 Jet Injection Into Polar Grid

Q1 223 2 Quadrant Polar Wind Flow

Q1 224 Polar Wind 360 Degree

Q1 225 2D Flow Over A Cylinder Polar Grid

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

Q1 227 Forced Vortex In A Pipe - Inviscid

Q1 228 Viscous Heating In Couette Flow

Q1 229 Viscous Heating In An Annulus

Q1 230 Decay Of Turbulence. K-Epsilon Model

Q1 233 2DY-Directed Free Vortex Test

Q1 234 De Laval Nozzle X Direction

Q1 237 Shallow Sample Cup In Crosswind

Q1 238 Shallow Sample Cup In Crosswind

Q1 240 2D Channel Flow

Q1 241 2D Restricted Inlet/Outlet Channel

Q1 242 Supersonic Flow In Duct

Q1 243 Transonic Flow In A Curved Duct

Q1 244 Heat Transfer In Pipe; Pr No Effect
___ contains PHOTON USE commands for displaying results

Q1 245 Heat Trans In Pipe;Pr.Effect;WHL-P
___ contains PHOTON USE commands for displaying results

Q1 246 Abrupt Enlargement At Pipe Entra
___ contains PHOTON USE commands for displaying results

Q1 247 Pipe With Internal Restriction
___ contains PHOTON USE commands for displaying results

Q1 248 Area Restriction With Inlet Swirl
___ contains PHOTON USE commands for displaying results

Q1 249 Square Cavity With Moving Lid
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command

Q1 250 2D Low-Re Flow Past A Plate

Q1 251 Laminar Free Convection In Cavity
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 252 Steady Free-Convection In Annular Cavity
___ involves buoyancy

Q1 253 Benard Convection
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ uses conjugate-gradient solver

Q1 254 Free Convection Between Vertical Plates
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy
___ uses conjugate-gradient solver
___ material indices set via SPEDAT

Q1 255 Potential Flow over Perpendicular Plate
___ contains PHOTON USE commands for displaying results

Q1 256 Steady Free-Convec In Calandria
___ involves buoyancy

Q1 257 Laminar Free Convection In Cavity
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ uses conjugate-gradient solver

Q1 260 Conjugate Heat Transf In Air Flow
___ contains PHOTON USE commands for displaying results

Q1 261 Conjugate Heat Transf In Air Flow
___ contains PHOTON USE commands for displaying results

Q1 262 Conjugate Heat Transfer Problem 2
___ contains PHOTON USE commands for displaying results

Q1 263 Conjugate Heat Transfer Problem 3
___ contains PHOTON USE commands for displaying results

Q1 264 Conjugate Heat Transfer Problem 4
___ contains PHOTON USE commands for displaying results

Q1 265 Cooling Of A Heated Block (1

Q1 266 Cooling Of A Heated Block (2

Q1 270 Impinging Jet In Rectangular Grid

Q1 271 Flow Around A Chimney
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 272 Steady Journal-Bearing Flow, 3D
___ solves for LTLS
___ computes WALL DISTANCE

Q1 273 Mixing At A T-Junction

Q1 274 3D Nav.Sto.Flow Around A Moving Van
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 275 "Darcy Flow" Around A Moving Van
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver
___ material indices set via SPEDAT

Q1 276 Potential Flow Around A Moving Van
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ material indices set via SPEDAT

Q1 277 Cubical Cavity With Moving Lid
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver

Q1 278 Laminar Natural Convec In A Cavity
___ involves buoyancy
___ uses conjugate-gradient solver

Q1 279 Convective Cooling Of Radial Fin
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 280 Turbulent Pipe Flow; Pr. No. Effect
___ contains PHOTON USE commands for displaying results
___ 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
___ Prndtl Mixing-Length model

Q1 289 LVEL model; EGWF= T
___ contains PHOTON USE commands for displaying results
___ computes WALL GAP
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 290 KE-EPS model; Re = 4.5000E+04; EGWF= T
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 291 Cav. Flow K-EPS Turbu Model;Ellip
___ material indices set via SPEDAT

Q1 292 2D Pipe Flow K-E Model; Re=8.3276E+04
___ contains PHOTON USE commands for displaying results

Q1 293 Simple Labyrinth; Q1 Made By Menu
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 294 Simple Labyrinth; Heavy Relaxation
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 295 Simple Labyrinth; Expert Relaxation
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 296 2D Turbulent Free Convection In A Cavity
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ involves buoyancy

Q1 297 2D Rayleigh-Benard Convection
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy

Q1 298 Test case for rotating grid
___ uses In-Form STORED command
___ contains initial values set by In-Form
___ contains sources set by In-Form

Q1 300 Backward-Facing STP KE MDL Y-X POS
___ material indices set via SPEDAT

Q1 320 Temporal Decay Of Turbu; K-E Model

Q1 321 Pressure Waves From Valve Closure
___ contains PHOTON USE commands for displaying results

Q1 322 Laminar Flow In Pipe-Transient
___ contains PHOTON USE commands for displaying results

Q1 323 Central Obstacle In Laminar Pipe
___ contains PHOTON USE commands for displaying results

Q1 324 Pipe; Outlet Restriction Added

Q1 325 Obstacle,Outlet Restriction And Cart

Q1 326 Vortex Near A Moving Wall

Q1 327 0D Piston-In-Cylinder Study

Q1 328 1D Piston-With-Bowl Study

Q1 329 1D Piston With Bowl; High Speed

Q1 330 Case 1 AXI-Symmetric Piston Bowl
___ material indices set via SPEDAT

Q1 331 Two Stroke Loop Scavenge Cycle 3D
___ contains PHOTON USE commands for displaying results

Q1 332 Shock Tube
___ contains PHOTON USE commands for displaying results

Q1 333 Shock Tube With 2D Obstacle
___ contains PHOTON USE commands for displaying results

Q1 334 Spherical Blast Wave
___ contains PHOTON USE commands for displaying results

Q1 335 1D Transient Shock Tube
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model

Q1 340 Transient Free Convection In A Box
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ special print-out activated via SPEDAT

Q1 341 Rayleigh-Taylor Instability
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 342 HYD. EQ. In XY Tank With Blockages

Q1 343 HYD. EQ. In YZ Tank With Blockages

Q1 344 2DTrans Buoyant Flow Of Melt In A Ladle
___ contains PHOTON USE commands for displaying results
___ 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(

Q1 350 Porous Plate (K-E
___ contains PHOTON USE commands for displaying results
___ computes WALL GAP
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ material indices set via SPEDAT
___ plate porosity set via SPEDAT

Q1 351 Porous Plate (Laminar
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT
___ plate porosity set via SPEDAT

Q1 360 MOFOR by In-Form: 2D motion of 2 objects
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 362 Slabwise-averaging and display
___ contains PHOTON USE commands for displaying results
___ 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

Q1 363 Slabwise-averaging and display
___ contains PHOTON USE commands for displaying results
___ 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

Q1 364 ARR In-Form function
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 365 MOFOR by In-Form: Underwater navigation
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ uses In-Form STORED command
___ contains properties set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 366 In-Form equivalent of library case 118
___ contains sources set by In-Form

Q1 367 In-Form equivalent of library case 790
___ contains sources set by In-Form

Q1 368 In-Form equivalent of library case 791
___ contains sources set by In-Form

Q1 369 Rotating coordinates
___ contains initial values set by In-Form
___ contains sources set by In-Form

Q1 370 MOFOR - In-Form: BOX linear motion in Z
___ uses MOFOR
___ contains properties set by In-Form
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 371 MOFOR - In-Form: BOX linear motion in Y
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ contains properties set by In-Form
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 372 MOFOR - In-Form: BOX linear motion in X-
___ uses MOFOR
___ contains properties set by In-Form
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 373 MOFOR - In-Form: BOX linear motion X-dir
___ uses MOFOR
___ contains properties set by In-Form
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 374 Rotating coordinates
___ contains initial values set by In-Form
___ contains sources set by In-Form

Q1 375 MOFOR/In-Form: diagonal motion in XY
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ contains properties set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 376 MOFOR/In-Form: diagonal motion in YZ
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ contains properties set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 377 MOFOR/In-Form: diagonal motion in XZ
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ contains properties set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 378 MOFOR/In-Form: diagonal motion in XY
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ contains properties set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 379 MOFOR/In-Form: diagonal motion in YZ
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ contains properties set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 380 MOFOR/In-Form: diagonal motion in XZ
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ contains properties set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 381 MOFOR by In-Form,CYLINDR object rotation
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 382 MOFOR by In-Form: BOX object rotation
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ uses .dat file for VR object
___ material indices set via SPEDAT

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

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

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

Q1 386 sphere with centre at origin
___ uses In-Form SPHERE function
___ uses In-Form STORED command

Q1 387 patch-limited objects
___ material indices set via SPEDAT
___ uses In-Form SPHERE function
___ contains initial values set by In-Form

Q1 401 Oil tanker rupture; warm-water layer eff
___ contains PHOTON USE commands for displaying results
___ 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
___ contains sources set by In-Form
___ uses In-Form STORED command

Q1 413 Transient Radiation From Fin
___ star-name patch: source=CO*PHI*NAME**VAL
___ contains lines to be read by EARTH via READQ1

Q1 414 X-Spatial Decay Of Turbu, K-Omega
___ contains PHOTON USE commands for displaying results

Q1 415 X-Spatial Decay Of Turbu, K-Vosq
___ star-name patch: source=CO*PHI*NAME**VAL

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

Q1 426 1DX Coal Combustion; Secondary Air
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 427 2DYZ Coal-Particle Combustion
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 429 1DY Oil-Droplet Combustion
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 434 0D Transient Reaction Rate

Q1 435 Gala Example 1D

Q1 436 Filling Of A 2d Duct - HOL Method

Q1 437 Filling Of A 2D Duct - HOL Method

Q1 439 Backward-Facing Step KE Mod YZ Pos
___ material indices set via SPEDAT

Q1 448 Vertical Chamber
___ computes heat transfer
___ material indices set via SPEDAT

Q1 450 Rigid-Surface Flow, 3D Incompress
___ material indices set via SPEDAT

Q1 451 Rigid-Surface Flow, 3D Compress
___ material indices set via SPEDAT

Q1 452 Free Surface Flow, 3D Surface
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 453 Free Surface Flow, 2D Incompressi
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 454 Free Surface Flow, 2D Shllw Water
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 455 Free Surface Flow, 3D, Submerged
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 456 Rigid Surface, 3D, Submerged
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 457 Variable Porosity, 2D
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 458 Variable Porosity, 3D
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 469 Temperature Solution Demonstration
___ computes heat transfer
___ material indices set via SPEDAT

Q1 470 Shallow-Water Waves After Exit Shut
___ contains PHOTON USE commands for displaying results

Q1 471 Waves After Shutting Inlet And Outlet
___ contains PHOTON USE commands for displaying results

Q1 472 Flow In Lake After Wind Stops
___ contains PHOTON USE commands for displaying results

Q1 473 Non Unif.Depth Channel.Out.Closure

Q1 474 Pollutant Flow In A Tidal Harbour
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 476 No title has been set for this run.

Q1 477 No title has been set for this run.
___ uses SHADOW method of size calculation

Q1 478 No title has been set for this run.

Q1 479 No title has been set for this run.
___ contains PHOTON USE commands for displaying results

Q1 480 1DX Coal-Particle Combustion
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 481 1D Coal-Particle Combustion
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 482 1DZ Coal-Particle Combustion
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 483 1DX Coal-Particle Comb. Equvel=T
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 484 1DY Coal-Particle Comb. Equvel=T
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 485 1DZ Coal-Particle Comb. Equvel=T
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 486 Test Of Whole Field Solver

Q1 487 Transient Dye Injection Into Steady Flow

Q1 488 Wave Propagation - 1D Scalar

Q1 489 Wave Propagation - 1D Scalar

Q1 490 Wave Propagation - 1D Scalar

Q1 491 Simple chemical reaction (SCRS
___ chemical sources with eddy-break-up model

Q1 492 Idealised Gas-Turbine Combustion Chamber
___ contains PHOTON USE commands for displaying results
___ contains lines to be read by EARTH via READQ1
___ uses conjugate-gradient solver
___ 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.

Q1 494 3D Radiant Heat Transfer In A Box
___ computes heat transfer

Q1 495 Radiative Transfer + Heat Source
___ contains PHOTON USE commands for displaying results

Q1 498 X-D Radiative Equilibrium In Slab
___ contains PHOTON USE commands for displaying results

Q1 500 1D Laminar Pipe Flow And Heat Trans
___ contains PHOTON USE commands for displaying results

Q1 501 1D Laminar Pipe Flow And Mass Trans
___ contains PHOTON USE commands for displaying results

Q1 502 1D Turb Pipe Flow + Heat Trans
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 503 2D Laminar Duct Flow And Heat Trans

Q1 504 2D Turb Duct Flow And Heat Trans

Q1 505 1D Lam Couette Flow And Heat Trans
___ contains PHOTON USE commands for displaying results

Q1 506 1D Laminar MHD Channel Flow
___ contains PHOTON USE commands for displaying results

Q1 507 1D Laminar MHD Couette Flow
___ contains PHOTON USE commands for displaying results

Q1 510 Power-Law Fluid FD Lam Pipe Flow
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries

Q1 511 Bingham-Fluid FD Lam Pipe Flow
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries

Q1 512 Power-Law Fluid_2D FD Duct Flow

Q1 513 Powre-Law_2D Fluid Ellip. Lam Pipe

Q1 514 Bingham Fluid_2D Ellip. Lam Pipe

Q1 520 Link Test In YZ Plane; 2 Dummy Cells
___ contains PHOTON USE commands for displaying results
___ uses link patch

Q1 521 Y-Direction Link In XY Plane
___ contains PHOTON USE commands for displaying results
___ uses link patch

Q1 522 Y-Direction Link In XY; Xcycle=t
___ contains PHOTON USE commands for displaying results
___ uses link patch

Q1 523 East-West Link Test In X-Y Plane
___ contains PHOTON USE commands for displaying results
___ uses link patch

Q1 524 Duct With 2 Side Branches;XYplane
___ contains PHOTON USE commands for displaying results
___ uses link patch

Q1 525 Multi-Blocking By Shear, XY Plane
___ contains PHOTON USE commands for displaying results
___ uses link patch
___ material indices set via SPEDAT

Q1 526 Rotating Inner And Fixed Outer Grid
___ contains PHOTON USE commands for displaying results
___ uses link patch

Q1 530 Influences On Convergence; Steady

Q1 531 Influences On Convergence; Transient

Q1 550 1D Radiant Heat Transfre In A Box

Q1 551 2D Radiant Heat Transfer In A Box
___ contains PHOTON USE commands for displaying results

Q1 552 3D Radiant Heat Transfer In A Box
___ contains PHOTON USE commands for displaying results

Q1 553 3D Radiant Heat Transfer In A Box
___ contains PHOTON USE commands for displaying results

Q1 565 Air-Cooled Electric-Motor Sector
___ contains PHOTON USE commands for displaying results
___ 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

Q1 567 GXTIM Example

Q1 568 Expert Test-The Driven-Cavity Flow
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command

Q1 571 GAS_AT_REST._SUDDEN_SUSTAINED_ENTRY_FROM
___ contains PHOTON USE commands for displaying results

Q1 572 Rect Cav With Moving Lid;Heat Tran
___ contains PHOTON USE commands for displaying results

Q1 575 2D Channel Flow Newtonian Fluid

Q1 576 2D Channel Flow;Non Newtonian Fluid
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 577 Counter Flow Demo
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 601 3D Heat Cond. Conjug.Grad. Solver
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver

Q1 602 Pot. Flow Around Van; CNGR. Solver
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ uses conjugate-gradient solver
___ material indices set via SPEDAT

Q1 603 Pot. Flow; Perp. Plate; Conj.GR.
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ uses conjugate-gradient solver

Q1 604 Diffuser ; Effect Of Prandtl No.
___ contains PHOTON USE commands for displaying results

Q1 605 Fully-Developed Flow; K-EPS Model
___ contains PHOTON USE commands for displaying results

Q1 606 Buoyant Plume in tunnel, 1.0000E+06 Cell
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 607 Flow Around A Group Of Buildings
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver
___ material indices set via SPEDAT

Q1 608 Free Convectn And Radiatn Heat Sink
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy
___ star-name patch: source=CO*PHI*NAME**VAL
___ uses conjugate-gradient solver
___ material indices set via SPEDAT

Q1 610 2D Laminar Air-Water Bound. Layer
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 611 Secondary Flow In Curved Duct
___ contains PHOTON USE commands for displaying results

Q1 612 Conduction In Cube; Expert
___ contains PHOTON USE commands for displaying results

Q1 613 Heat Sources; Air-Cooled Box; EGWF
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy
___ material indices set via SPEDAT

Q1 614 Flow Of Glass In T-shaped Channel
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 615 Potl. 2D Flow; Source-Sink Pair
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ uses conjugate-gradient solver

Q1 616 Potl. 2D Flow; Source-Sink Pair
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL
___ uses conjugate-gradient solver

Q1 617 1D Ignition And Extinction
___ contains PHOTON USE commands for displaying results
___ chemical sources

Q1 620 Case 100; Various Solver Options
___ contains PHOTON USE commands for displaying results

Q1 621 Simulation of a Labyrinth Flow
___ computes heat transfer
___ material indices set via SPEDAT

Q1 622 Duplication in VR-Editor
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 623 Flow between cylinderical obstacles
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 624 Array and group settings
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 625 Fans and Inlets
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 626 Jetpump
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 627 Flow simulation in a pipe
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 628 Flow around buildings
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 629 Flow over heated bricks
___ computes heat transfer
___ Prndtl Mixing-Length model
___ involves buoyancy
___ material indices set via SPEDAT

Q1 630 Introducing contaminants
___ material indices set via SPEDAT

Q1 631 Editing properties
___ computes heat transfer
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 632 Duct at 30 degree to the horizontal
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 633 Transient Heat Conduction
___ computes heat transfer

Q1 634 Transient Heat Conduction
___ computes heat transfer
___ material indices set via SPEDAT

Q1 635 Complete Diaphragm rupture
___ computes heat transfer
___ Prndtl Mixing-Length model
___ material indices set via SPEDAT

Q1 636 Partial Diaphragm rupture
___ computes heat transfer
___ Prndtl Mixing-Length model
___ material indices set via SPEDAT

Q1 637 2D Axi-Symmetrical Jet Pump
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 638 Swirling flow through an orifice plate
___ material indices set via SPEDAT

Q1 639 Swirling flow through an orifice plate
___ material indices set via SPEDAT

Q1 640 A duct flow (Immersol)
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ Prndtl Mixing-Length model
___ material indices set via SPEDAT

Q1 641 Electronic box
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ Prndtl Mixing-Length model
___ material indices set via SPEDAT

Q1 642 Combustion SCRS
___ chemical sources with eddy-break-up model
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 643 ESCRS - Fast Chemistry
___ uses extended SCRS

Q1 644 Combustion CHEMKIN
___ computes heat transfer
___ Constant-effective-viscosity model
___ material indices set via SPEDAT

Q1 645 KE-EPS model; Re = 45000.00; EGWF= T
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 646 RNG model; Re = 45000.00; EGWF= T
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 647 KECHEN model; Re = 45000.00; EGWF= T
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 648 Simple Labyrinth; LVEL model
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL GAP
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 649 2PHS model; Re = 45000.00; EGWF= T
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 651 Boiling in a pipe (IPSA)
___ involves buoyancy

Q1 652 Flow over a backward-facing step (SEM)
___ involves buoyancy
___ material indices set via SPEDAT

Q1 653 Water pouring into a bund
___ involves buoyancy
___ material indices set via SPEDAT

Q1 654 Oil penetrating into water
___ involves buoyancy

Q1 655 Flow in a separator ASM
___ involves buoyancy
___ material indices set via SPEDAT

Q1 656 Shallow water IN TURNAROUND DUCT: B
___ contains PHOTON USE commands for displaying results

Q1 657 A whirlpool in a shallow pond
___ material indices set via SPEDAT

Q1 658 Inform: Inlet boundary layer profile
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 659 2D Warehouse Example
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 660 Inlet flow normal to cylinder surface
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 661 Simulation of a Labyrinth Flow
___ computes heat transfer
___ material indices set via SPEDAT

Q1 662 No title has been set for this run.
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 663 No title has been set for this run.
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 664 No title has been set for this run.
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 665 Flow around buildings
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 667 3D Nav.Sto.Flow Around A Moving Van
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT
___ contains sources set by In-Form

Q1 668 My first flow simulation
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 669 My first flow simulation
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ Prndtl Mixing-Length model
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 670 My first flow simulation
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ Prndtl Mixing-Length model
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 700 In-Form equivalent of PLANT case Z100
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ uses LONGNAME

Q1 701 In-Form equivalent of PLANT case Z101
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ uses LONGNAME
___ uses In-Form STORED command

Q1 702 In-Form equivalent of PLANT case Z102
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ material indices set via SPEDAT

Q1 703 Extract fin.-vol. equations and diffusio
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ uses LONGNAME
___ uses In-Form STORED command

Q1 704 2D UNSTEADY DIFFUSION PROBLEM:Z104
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver
___ contains initial values set by In-Form
___ time-dependent source set by In-Form

Q1 705 In-Form equivalent of PLANT case Z106
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command
___ contains sources set by In-Form

Q1 706 In-Form equivalent of PLANT case Z106
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command
___ contains sources set by In-Form

Q1 707 decay of temp. profile in metal slab
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ contains initial values set by In-Form
___ material indices set via SPEDAT

Q1 708 In-Form equivalent of PLANT case Z108
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 709 In-Form equivalent of simplified PLANT c
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 710 3D SHELL-AND-TUBE HEAT EXCHANGER:110
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 711 In-Form equivalent of PLANT case Z111
___ contains PHOTON USE commands for displaying results
___ time-dependent source set by In-Form
___ uses In-Form STORED command

Q1 712 In-Form equivalent of PLANT case Z112
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ uses In-Form STORED command

Q1 713 In-Form equivalent of PLANT case Z113
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ uses In-Form STORED command

Q1 717 In-Form equivalent of PLANT case Z117
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ uses In-Form STORED command

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

Q1 719 In-Form equivalent of PLANT case Z119
___ contains PHOTON USE commands for displaying results
___ time-dependent source set by In-Form
___ uses In-Form STORED command

Q1 720 In-Form equivalent of PLANT case Z120
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ uses In-Form STORED command

Q1 721 In-Form equivalent of PLANT case Z604
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 722 In-Form equivalent of PLANT case Z122
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 723 In-Form equivalent of PLANT case Z123
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form

Q1 724 In-Form equivalent of PLANT case Z124
___ contains PHOTON USE commands for displaying results
___ 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
___ contains properties set by In-Form

Q1 726 In-Form equivalent of PLANT case Z126
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 727 In-Form equivalent of PLANT case Z127
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 729 In-Form equivalent of PLANT case Z129
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 731 In-Form equivalent of PLANT case Z131
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 733 In-Form equivalent of PLANT case Z133
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 734 In-Form equivalent of PLANT case Z134
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 735 In-Form equivalent of PLANT case Z135
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 737 CAREY Oscillating water column
___ contains PHOTON USE commands for displaying results
___ 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

Q1 738 In-Form equivalent of PLANT case Z138
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 739 In-Form equivalent of PLANT case Z139
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 740 In-Form equivalent of PLANT case Z140
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ uses LONGNAME

Q1 741 In-Form equivalent of PLANT case Z141
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 742 In-Form equivalent of PLANT case Z142
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 743 p 1.0000E+10 1.0000E+05 u 1.0000E+10 1.0
___ solves for VELOCITY POTENTIAL
___ uses In-Form STORED command
___ contains initial values set by In-Form
___ special print-out activated via SPEDAT
___ material indices set via SPEDAT

Q1 745 Non-uniform moving-wall velocity
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 746 Heat Transfer In Channel By In-Form.
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 747 Injection In Channel By In-Form.
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 748 Wall-functions By In-Form.
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

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

Q1 750 In-Form equivalent of PLANT case Z244
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 751 In-Form equivalent of PLANT case Z251
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 752 In-Form equivalent of PLANT case Z132
___ contains sources set by In-Form
___ uses In-Form STORED command

Q1 753 Flow straightened by vanes + resistances
___ contains PHOTON USE commands for displaying results

Q1 754 Simple shapes by box In-Form object
___ 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 BOX function
___ material indices set via SPEDAT

Q1 756 Mixing caused by rotating paddle: 756
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ contains sources set by In-Form
___ material indices set via SPEDAT
___ uses In-Form STORED command

Q1 757 Flow in stirred 3D vessel: 757
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ contains sources set by In-Form
___ material indices set via SPEDAT
___ uses In-Form STORED command

Q1 758 Three examples of initialization :758
___ contains PHOTON USE commands for displaying results
___ contains initial values set by In-Form

Q1 759 CO-LOCATED VELOCITY CALCULATION:759
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 760 In-Form Equivalent Of PLANT Case Z101
___ contains PHOTON USE commands for displaying results
___ contains properties set by In-Form
___ uses LONGNAME
___ uses In-Form STORED command

Q1 761 SATURATED_WATER
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses In-Form STORED command
___ contains properties set by In-Form

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

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

Q1 764 InForm Settings And Sources For Objects
___ contains PHOTON USE commands for displaying results
___ 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
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 765 In-Form Represents Hot Moving Spheres
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses In-Form SPHERE function
___ contains sources set by In-Form

Q1 766 2D Football Trajectory.
___ contains PHOTON USE commands for displaying results
___ uses In-Form SPHERE function
___ contains sources set by In-Form
___ time-dependent source set by In-Form
___ uses In-Form STORED command

Q1 767 3D football trajectory: 767
___ contains PHOTON USE commands for displaying results
___ uses In-Form SPHERE function
___ time-dependent source set by In-Form
___ contains sources set by In-Form
___ uses In-Form STORED command

Q1 768 3D heating spiral: 768
___ contains PHOTON USE commands for displaying results
___ 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

Q1 770 Unsteady mixing in two paddle-stirred r
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command
___ uses In-Form BOX function
___ contains sources set by In-Form

Q1 771 Drilling of Pump chamber, BFC: 771
___ contains PHOTON USE commands for displaying results
___ uses In-Form SPHERE function
___ contains initial values set by In-Form

Q1 772 In-Form, sphere in polar coordinates: 77
___ contains PHOTON USE commands for displaying results
___ 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
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 774 T-Junction: In-Form Source.
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 775 Flow In A Model Furnace: In-Form Source.
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 776 In-Form equivalent of PLANT case Z623
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model
___ In-Form sets the z-direction grid

Q1 777 In-Form equivalent of PLANT case Z622
___ contains PHOTON USE commands for displaying results
___ In-Form sets the y-direction grid

Q1 778 In-Form equivalent of PLANT case Z619
___ In-Form sets the "time grid"
___ In-Form used to "MAKE" variables
___ uses In-Form STORED command

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

Q1 780 In-Form equivalent of PLANT case Z604
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ contains properties set by In-Form
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 781 17-fluid turbulence model
___ contains PHOTON USE commands for displaying results
___ 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
___ contains sources set by In-Form

Q1 783 3D Piston by In-Form
___ contains PHOTON USE commands for displaying results
___ 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
___ uses In-Form BOX function
___ uses In-Form STORED command
___ contains sources set by In-Form

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

Q1 786 In-Form equivalent of PLANT case Z350
___ contains PHOTON USE commands for displaying results
___ 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

Q1 787 TWO VESSELS BY IN-FORM
___ contains PHOTON USE commands for displaying results
___ uses In-Form SPHERE function
___ contains initial values set by In-Form
___ material indices set via SPEDAT

Q1 788 Cubical Cavity With Moving Lid
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command

Q1 789 Shell-and-tube heat exchanger
___ 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

Q1 790 Steady Counterflow Heat Exchanger
___ uses neighbour patch (name = NE...)

Q1 791 Transient Counterflow Heat Exchr.
___ uses neighbour patch (name = NE...)

Q1 792 791 + Allowance For Metal Capacity
___ contains PHOTON USE commands for displaying results
___ uses neighbour patch (name = NE...)

Q1 793 Case 4 Steady Crossflow
___ uses neighbour patch (name = NE...)

Q1 794 Case 5 Transient Crossflow
___ uses neighbour patch (name = NE...)

Q1 795 Case 6; Allowance For Metal CP
___ uses neighbour patch (name = NE...)

Q1 796 Case 7 3D Shell,Tube Heat Exchnger
___ uses neighbour patch (name = NE...)

Q1 797 Case 8; As For Case 7 But Trans
___ uses neighbour patch (name = NE...)

Q1 798 Case 9; Allowance For Metal Capac
___ uses neighbour patch (name = NE...)

Q1 799 Injection In Channel By In-Form.
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ contains sources set by In-Form

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

Q1 801 Inclined Channel; 32,40,1 Grid
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 803 Turn-around duct; Fine Grid
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 804 Turn-Around Duct; 20*40 Grid
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 805 Sphere In A Uniform Stream; Re=40
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 806 Diamond-Shaped Obstacle; 1,18,31 Grid
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 807 2 spheres Re=40 quarter=T finegrid=T
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses fine-grid-embedding

Q1 808 Cylinder In Uniform Stream; 1,18,31 Grid
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 809 Skewed Box In Uniform Stream; 18,18,31 G
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 810 Free Convection In A Porous Medium
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 811 1D Darcy Flow With Heat Transfer
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 820 1D U1 Diffusion In An Annulus
___ contains PHOTON USE commands for displaying results

Q1 821 1D U1 Diffusion In An Annulus;Rinner=0
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 822 1D U1 Diffusion In A Rotating Cylinder
___ contains PHOTON USE commands for displaying results

Q1 823 1D U1 Diffusion In An Annulus;Omegi=0.
___ contains PHOTON USE commands for displaying results

Q1 824 2D U1 Flow In An Annulus;Omegi=0.0
___ contains PHOTON USE commands for displaying results

Q1 825 1D U1 Coriolis/Diffusion Test:Rinner.gt.
___ contains PHOTON USE commands for displaying results

Q1 826 2D U1 Coriolis/Diffusion Test:Rinner.gt.
___ contains PHOTON USE commands for displaying results

Q1 827 2D U1 Coriolis/Diffusion Test:Rinner=0
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 828 1D U1 Diffusion Of A Free Vortex
___ contains PHOTON USE commands for displaying results

Q1 829 1D U1 Diffusion Of A Forced Vortex
___ contains PHOTON USE commands for displaying results

Q1 830 1D U1 Diffusion Of A Combined Vortex
___ contains PHOTON USE commands for displaying results

Q1 831 1D U1 Coriolis/Diff. Test:Rinner.gt.0 An
___ contains PHOTON USE commands for displaying results

Q1 832 2D U1 Coriolis/Diff. Test:Rinner.gt.0 An
___ contains PHOTON USE commands for displaying results

Q1 833 2D 360 Deg Polar Wind Flow
___ contains PHOTON USE commands for displaying results

Q1 850 Longwell Bomb; X-Y Model
___ contains PHOTON USE commands for displaying results
___ chemical sources

Q1 851 Steady 1D Flame Phenomena
___ contains PHOTON USE commands for displaying results
___ chemical sources

Q1 852 Spherical Flame Propagation
___ contains PHOTON USE commands for displaying results
___ chemical sources
___ involves buoyancy

Q1 853 SCRS Combustion In A Duct
___ contains PHOTON USE commands for displaying results

Q1 855 Transfer objects; 1d diffusion; 1st run.
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 856 Transfer objects; 2d convection; 1st run
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form

Q1 857 domain-partitioning technique. First run
___ contains PHOTON USE commands for displaying results

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

Q1 859 ATMOSPHERIC B.L., first run
___ contains PHOTON USE commands for displaying results
___ contains sources set by In-Form
___ contains initial values set by In-Form
___ uses In-Form STORED command
___ contains properties set by In-Form

Q1 860 Fire in room.
___ material indices set via SPEDAT

Q1 861 Smoke near building
___ material indices set via SPEDAT

Q1 862 Smoke in room.

Q1 863 Computer cabinet.
___ computes heat transfer
___ material indices set via SPEDAT

Q1 864 Computer room.
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 870 Contact Resistance To Heat Condctn
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 871 3D Steady Heat Conduction In A Cube
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 887 Slow Jet Entering Fast-Moving Surr
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model

Q1 890 2D Subsonic Turbulent Round Jet
___ contains PHOTON USE commands for displaying results

Q1 895 3D Solid-Propellant Rocket
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 896 Fully-Developed, Moving-Wall Duct
___ contains PHOTON USE commands for displaying results

Q1 899 macro used by cases 901-906

Q1 900 macro by case 909

Q1 901 De Laval Nozzle - Htot +X

Q1 902 De LavalL Nozzle - Htot + GXCONV +X

Q1 903 De Laval Nozzel - Hst +X

Q1 904 De Laval Nozzle - Hst + GXCONV +X

Q1 905 De Laval Nozzle - Hst + GXCONV +X

Q1 906 De Laval Nozzle - Using SMART Scheme

Q1 907 macro used by cases 908, 909

Q1 908 Supersonic Flow In Duct - Htot YX

Q1 909 Supersonic Flow In Duct - Hsta YX

Q1 910 Fanno Flow - Subsonic Inlet

Q1 911 2D Supersonic Rocket Exhaust Plume
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver

Q1 921 Square Cavity; Steel Block; Water
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 922 Free Conv.; Steel Block In Water
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy
___ material indices set via SPEDAT

Q1 923 Free Conv.; Steel Block In Mercury
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy
___ material indices set via SPEDAT

Q1 924 Free Conv.; Steel Block In Glycerine
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy
___ material indices set via SPEDAT

Q1 925 As For Case 921, But With Turmod(lvel
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ computes WALL GAP
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 926 As For Case 921, But With Turmod(lvel
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ computes WALL GAP
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 927 As For Case 923, But With Turmod(lvel
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ computes WALL GAP
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ involves buoyancy
___ material indices set via SPEDAT

Q1 928 As For Case 924, But With Turmod(lvel
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ computes WALL GAP
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ involves buoyancy
___ material indices set via SPEDAT

Q1 933 HotBox N-W Aper N-S Grav XY-Plane
___ computes heat transfer
___ involves buoyancy
___ material indices set via SPEDAT

Q1 939 HotBox N-W Aper N-S Grav XY-Plane
___ computes heat transfer
___ involves buoyancy
___ material indices set via SPEDAT

Q1 947 Couette Flow VX
___ computes heat transfer
___ material indices set via SPEDAT

Q1 951 Couette Flow, Reynolds Number = 10.0

Q1 958 Couette Flow, K-EPS, Various RE

Q1 tate Agitated reactor
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 ntip Falling box with broken tip
___ contains PHOTON USE commands for displaying results
___ uses MOFOR
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 list No title has been set for this run.

advanced multi-phase

Q1 p100 FILLING OF A 2D DUCT BY HOL:P100
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p101 FILM FORMATION BY HOL :P101
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p102 SLUMPING OF A LIQUID COLUMN BY HOL:P102
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p103 FALLING WATER JET - HOL METHOD:P103
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p104 FILLING OF A 2D DUCT BY SEM :P104
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p105 FILM FORMATION BY SEM METHOD:P105
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p106 SLUMPING OF A LIQUID COLUMN BY SEM:P106
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p107 FALLING WATER JET - SEM METHOD
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p108 Particle accumulation along duct walls:P
___ contains PHOTON USE commands for displaying results

Q1 p109 3D flow in a channel with an obstacle:P1
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p110 3D flow in a circular pipe: P110
___ contains PHOTON USE commands for displaying results

Q1 p111 SETTLING IN A CIRCULAR PIPE: P111
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

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

Q1 p113 INCLINED JET-PROP FLOW OVER FLAT BED :P1
___ material indices set via SPEDAT

Q1 p114 ASM 1D SETTLING OF PARTICLES P112
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 p115 ASM Workshop: 2D Separator
___ involves buoyancy
___ material indices set via SPEDAT

Q1 p200 1D PARTICLE FLOW IN UNIFORM GAS STREAM

Q1 p201 1D SETTLING OF PARTICLES UNDER GRAVITY

Q1 p202 1D RISING OF AIR BUBBLES IN WATER

Q1 p203 1D SOLIDS TRANSPORT IN WATER

Q1 p204 1D VERTICAL PNEUMATIC CONVEYING

Q1 p205 1D GAS-PARTICLE FLOW WITH HEAT TRANSFER

Q1 p206 1D VIRTUAL MASS TEST CASES

Q1 p207 1DX TRANSIENT SEDIMENTATION

Q1 p216 1D INTERFACIAL-PRESSURE TEST CASE

Q1 p217 3D PIPE FLOW TEST OF LIFT FORCES

Q1 p218 BUBBLY AIR/WATER PIPE- Seriwaza upflow
___ contains PHOTON USE commands for displaying results

Q1 p219 AIR-SOLIDS FLOW- No turb. Mods
___ contains PHOTON USE commands for displaying results

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

Q1 p221 TRONDHEIM BUBBLE COLUMN- K-E turb.
___ contains PHOTON USE commands for displaying results

Q1 p222 2D 2-PHASE HILLS BUBBLE COLUMN

Q1 p300 Water pouring into a bund
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 p301 FLOW IN OPEN TURNAROUND CHANNEL

Q1 p302 recirculation in a stilling pond
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 p303 Flow impingement on a blunt body
___ material indices set via SPEDAT

body-fitted coordinates

Q1 b100 3D grid created by menu

Q1 b101 Bent-pipe grid, created by gset

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

Q1 b103 Parameterised inclined-plated flow :B103
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 b111 No title has been set for this run.
___ material indices set via SPEDAT

Q1 b112 No title has been set for this run.
___ material indices set via SPEDAT

Q1 b113 No title has been set for this run.
___ material indices set via SPEDAT

Q1 b114 No title has been set for this run.
___ material indices set via SPEDAT

Q1 b115 No title has been set for this run.
___ material indices set via SPEDAT

Q1 b116 No title has been set for this run.
___ material indices set via SPEDAT

Q1 b200 Data from ICEM CFD
___ computes heat transfer
___ material indices set via SPEDAT

Q1 b201 GeoGrid Example
___ computes heat transfer
___ Prndtl Mixing-Length model

Q1 b202 Data from ICEM CFD
___ computes heat transfer
___ Prndtl Mixing-Length model

Q1 b414 POTENTIAL FLOW AROUND 1/2 CYLINDER: B514
___ contains PHOTON USE commands for displaying results

Q1 b422 Plane transonic flow through a nozzle
___ contains PHOTON USE commands for displaying results

Q1 b459 CONJ.HEAT TRANS.IN A CURVED DUCT: B459
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 b510 2-D DIFFUSER ;Y-Z CARTESIAN COORD.: B510
___ contains PHOTON USE commands for displaying results

Q1 b511 2-D DIFFUSER ;Y-Z CARTESIAN COORD.: B510
___ contains PHOTON USE commands for displaying results

Q1 b512 2-D CURVED DUCT; Y-Z PLANE : B512
___ contains PHOTON USE commands for displaying results

Q1 b513 PLANE DUCT + ANGLED SPLITTER PLATE: B513
___ contains PHOTON USE commands for displaying results

Q1 b514 POTENTIAL FLOW AROUND 1/2 CYLINDER: B514
___ contains PHOTON USE commands for displaying results

Q1 b515 MAGIC-GENERATED 1/2 CYLINDER GRID: B515
___ contains PHOTON USE commands for displaying results

Q1 b516 POT FLOW OVER ELLIPSE;ALGEBR. GRID: B516
___ contains PHOTON USE commands for displaying results

Q1 b517 POT FLOW OVER ELLIPSE;MAGIC GRID: B517
___ contains PHOTON USE commands for displaying results

Q1 b518 As for 517 with Navier-Stokes Soltn:B518
___ contains PHOTON USE commands for displaying results

Q1 b519 FLOW OVER ELLIPSE;MAGIC GRID: B519
___ contains PHOTON USE commands for displaying results

Q1 b520 POT. FLOW AROUND A HALF-CYL X-Z: B520
___ contains PHOTON USE commands for displaying results

Q1 b521 POT. FLOW AROUND A HALF-CYL X-Y : B521
___ contains PHOTON USE commands for displaying results

Q1 b522 TRANSONIC FLOW THRU A NOZZLE: B522
___ contains PHOTON USE commands for displaying results

Q1 b523 SUPERSONIC FLOW THRU WEDGE CASCADE: B523
___ contains PHOTON USE commands for displaying results

Q1 b524 MIZUKI radial flow impeller: B524
___ contains PHOTON USE commands for displaying results

Q1 b525 FLOW THROUGH A REACTION TURBINE: B525
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver

Q1 b526 Flow in Hobson's cascade : B526
___ contains PHOTON USE commands for displaying results

Q1 b527 PLANE FLOW IN TURNAROUND DUCT: B527
___ contains PHOTON USE commands for displaying results

Q1 b528 Flow over a symmetric aerofoil: B528
___ contains PHOTON USE commands for displaying results

Q1 b529 External flow over a rocket: B529
___ contains PHOTON USE commands for displaying results

Q1 b530 FLOW AROUND A SHIP'S STERN : B530

Q1 b531 2D BODY-SECTION IN A WIND TUNNEL: B531
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b532 DEMONSTRATIONS OF GRID GENERATION: B532

Q1 b533 PLANE CHANNEL + SMOOTH EXPANSION.: B533
___ contains PHOTON USE commands for displaying results

Q1 b534 FLOW THROUGH A BALL VALVE : B534
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b536 PRANDTL-MEYER turning in the X-Y: B536
___ contains PHOTON USE commands for displaying results

Q1 b537 TURNAROUND DUCT WITH USER CHOICES :B537
___ contains PHOTON USE commands for displaying results

Q1 b538 GSET COMMAND TUTORIAL 1 :B538

Q1 b539 TRANSFER_BETWEEN_TWO_SHAPES : B539

Q1 b540 COPY-ROTATE_EXAMPLE:B540

Q1 b541 CURVATURE_FOR_CAR_BODYB541

Q1 b542 SUB-DOMAIN_SMOOTHINGB542

Q1 b543 TIME_SETTINGB543

Q1 b544 GRID_ON_CIRCLE :B544

Q1 b545 FLOW IN A 180 Deg CURVED DUCT
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b546 Pipe flow with two semi-circular blocks
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 b551 macro by case 909
___ contains PHOTON USE commands for displaying results

Q1 b552 macro by case 909

Q1 b561 Flow through a circular domain :561
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ material indices set via SPEDAT

Q1 b562 POLAR GRID DOWNFLOW V RAD., U AZI. :562
___ contains PHOTON USE commands for displaying results

Q1 b563 Viscous flow in a S-shaped duct :563
___ contains PHOTON USE commands for displaying results

Q1 b565 Radiused slot entry :565
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b566 Case 1 (WUA-CFD meeting in Basel,1994).
___ contains PHOTON USE commands for displaying results

Q1 b567 Bent-pipe grid, created by GSET :567
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL

Q1 b568 Twisted-pipe grid; potential flow :568
___ contains PHOTON USE commands for displaying results
___ solves for VELOCITY POTENTIAL

Q1 b569 Flow in a curved pipe :569
___ contains PHOTON USE commands for displaying results

Q1 b570 XY Duct, GCV Solver, Skew angle 70
___ contains PHOTON USE commands for displaying results

Q1 b571 Skewed Cavity, Staggered Solver, Angle =
___ contains PHOTON USE commands for displaying results

Q1 b572 Flow around a Cylinder at Re = 40
___ contains PHOTON USE commands for displaying results

Q1 b573 Flow around a Cylinder at Re = 40
___ contains PHOTON USE commands for displaying results

Q1 b574 Flow around a Cylinder at Re = 40
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b575 Flow past Off-set Cylinders - Staggered
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 b576 Case 1 WUA-CFD Basel,1994 - Staggered
___ contains PHOTON USE commands for displaying results

Q1 b577 CAR body.
___ material indices set via SPEDAT

Q1 b578 Stirred reactor with baffles
___ material indices set via SPEDAT

Q1 b579 CAR body - Staggered Solver
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b580 IAHR Smooth Channel, Re = 10
___ contains PHOTON USE commands for displaying results

Q1 b581 Radiused Slot Entry - Staggered
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b582 Pipe Flow with Unstructured Multi-Block
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b583 3D TURBULENT FLOW IN AN ELBOW METER
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 b584 Sliding grid test case
___ material indices set via SPEDAT

Q1 b585 Pipe Flow with Multi-Block Grid and LVEL
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL GAP
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 b963 expanding closed 3D box

Q1 b964 expanding open-ended 2D box

Q1 b965 Moving-bfc test; grid distortion :b965
___ contains PHOTON USE commands for displaying results

Q1 b966 Expanding sphere :B966
___ contains PHOTON USE commands for displaying results

Q1 b967 cylinder with grid distortion :B967
___ contains PHOTON USE commands for displaying results

Q1 b968 Expanding sphere :B968

advanced chemistry

Q1 c109 NOX Post-Processing Of Case 481
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 c110 2-D Coal Combustion With NOX
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 c111 3-D Coal Combustion In A Furnace
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 c112 No title has been set for this run.
___ contains PHOTON USE commands for displaying results

Q1 c113 2-D CH4/AIR combustion+thermal NOX: C113
___ contains PHOTON USE commands for displaying results

Q1 c114 1D coal + wood combustion
___ uses SHADOW method of size calculation
___ uses wood-combustion model
___ chemical sources with Arrhenius model
___ chemical sources

Q1 c115 coal- and wood-burning furnace
___ uses SHADOW method of size calculation
___ uses wood-combustion model
___ chemical sources with Arrhenius model
___ chemical sources

Q1 c116 Low Load, Coal and Wood
___ uses SHADOW method of size calculation
___ uses wood-combustion model
___ involves buoyancy
___ chemical sources with Arrhenius model
___ chemical sources
___ material indices set via SPEDAT

Q1 c201 CHEMKIN-1DY Plug Flow H2-O2 Reactor 201
___ computes heat transfer

Q1 c202 Plug Flow Reactor, Para. PHOENICS solver
___ computes heat transfer

Q1 c203 CHEMKIN - 0D-Transient Reaction
___ computes heat transfer

Q1 c204 CHEMKIN - 1DY Premixed H2-Air Flame
___ computes heat transfer
___ Constant-effective-viscosity model
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 c205 CHEMKIN - 1DZ Premixed H2-Air Flame
___ computes heat transfer
___ Constant-effective-viscosity model
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 c206 C206: 1DX Thermal Diffusion Test
___ computes heat transfer

Q1 c207 C207: 1DY Thermal Diffusion Test
___ computes heat transfer

Q1 c208 C208: 1DZ Thermal Diffusion Test
___ computes heat transfer

Q1 c209 1DX Simple H2=g2H Reaction Test Case

Q1 c210 Thermal Diffusion Test-Case: XY-plane
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 c211 Thermal Diffusion Demo.: YZ-plane
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 c301 Premixed CH4 Combustion
___ uses extended SCRS

Q1 c302 Owen Furnace CH4 Diffusion Flame
___ uses extended SCRS
___ special print-out activated via SPEDAT

Q1 c303 Premixed CO Combustion
___ uses extended SCRS

Q1 c304 Premixed CO And H2 Combustion
___ uses extended SCRS

Q1 c305 Premixed 2Step CH4 Combustion
___ uses extended SCRS

Q1 c306 RADIAN: 2D Turbulent Diffusion Flame
___ uses extended SCRS

Q1 c307 Kent-Bilger H2 Diffusion Flame
___ uses extended SCRS

Q1 c308 CO Diffusion Flame
___ uses extended SCRS

Q1 c309 CH4 Statoil Furnace
___ uses extended SCRS
___ material indices set via SPEDAT

Q1 c310 ke_rf220_106
___ material indices set via SPEDAT

Q1 c400 Coke Burning In A Grate Stoker
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 c401 Coal-Fired Boiler
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation
___ uses .dat file for VR object

Q1 c402 Rotary Kiln For Particulate Refuse
___ uses SHADOW method of size calculation
___ involves buoyancy
___ uses .dat file for VR object

Q1 c403 Transport Of Toxic Spill
___ material indices set via SPEDAT

Q1 c404 Building Fire In Cross-Wind
___ material indices set via SPEDAT

Q1 c405 Secondary Combustion Chamber
___ contains PHOTON USE commands for displaying results
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 c406 Two-step reaction: 1 fluid
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 c407 Wall-fired model furnace
___ contains PHOTON USE commands for displaying results
___ uses .dat file for VR object

GENTRA (particle tracking

Q1 g001 No title has been set for this run.

Q1 g002 No title has been set for this run.

Q1 g003 No title has been set for this run.

Q1 g200 Backward-facing step : G200
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 g201 Spray dryer (BFC=T) : G201
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 g204 Particles in radial impeller: G204
___ contains PHOTON USE commands for displaying results

Q1 g205 Particles through a ball valve: G205
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 g207 Sample cup in rain: G207
___ contains PHOTON USE commands for displaying results

Q1 g209 Particles in 2D curved duct: G209
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 g210 1D Evaporation of a Water Jet in a Duct
___ computes heat transfer
___ Prndtl Mixing-Length model
___ uses In-Form STORED command
___ uses .dat file for VR object

Q1 g301 Particle heating in pipe : G301

Q1 g302 HEAT-EXCHANGING, 1-D : G302

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

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

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

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

Q1 g502 PARTICLE EVAPORATING IN PIPE: G502

Q1 g505 Evapor. particl.in spray dryer:G505
___ contains PHOTON USE commands for displaying results
___ uses In-Form STORED command
___ contains properties set by In-Form
___ material indices set via SPEDAT

Q1 g506 PARTICLES IN 2D CURVED DUCT: G506
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 g507 ISOTHER. EVAPORN, CONST PROP'S:G507
___ computes heat transfer
___ material indices set via SPEDAT

Q1 g508 ISOTHER. EVAPORN, CONST PROP'S:G508
___ computes heat transfer
___ material indices set via SPEDAT

Q1 g704 Test for tracers in BFC: G704
___ contains PHOTON USE commands for displaying results

Q1 g706 Beams in reaction turbine: G706
___ contains PHOTON USE commands for displaying results

Q1 g721 Particle bouncing in grav field: G721
___ contains PHOTON USE commands for displaying results

Q1 g722 Oblique impingement of box on water: G72
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ contains properties set by In-Form
___ contains initial values set by In-Form
___ contains sources set by In-Form

multi-block and fine-grid embedding

Q1 f100 CCM : Square cavern (Re=10000.).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f101 CCM: Back-facing step (2 layer K-E).
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ solves for LTLS
___ computes WALL DISTANCE
___ material indices set via SPEDAT

Q1 f102 CCM : Re= 1000.; TET= 45.
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f103 CCM : Laminar convection in Annuli.
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f104 CCM: U-duct (Y-Z plane, Re=1000.).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f105 CCM: Swirl-flow (Re=100).
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ material indices set via SPEDAT

Q1 f106 CCM-SCHM: X-Y convection in skewed flow.
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f107 CCM : Pressure Drop (X-Y).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f108 FGE: Backward facing step with KEMODL mo
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses fine-grid-embedding

Q1 f109 CCM : Salted water flow.
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f110 CCM : Swirling flow; Lin-expan. (Re=200)
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f111 CCM : 2D-duct with F(Re)-expansion.
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f112 CCM: Bay flow (3D,K-E
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ material indices set via SPEDAT

Q1 f113 PHOENICS: Swirling flow.
___ uses CCM method

Q1 f114 NON-ISOTHERMAL 2D LAMINAR MIXING LAYER
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 f150 No title has been set for this run.
___ uses CCM method

Q1 f200 MB-FGE: 2D Potential flow over airfoil.
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ solves for VELOCITY POTENTIAL

Q1 f201 MB-FGE: Heat Conduction in a 5-pointed s
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f202 MB-FGE: Laminar flow between two cylinde
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f203 MBFGE: Flow in cavity (5 blocks).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f204 MB-FGE: 2D skewed cavity with moving lid
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f205 MB-FGE: 2D Flow Over Back-Step (2L K-E).
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ solves for LTLS
___ computes WALL DISTANCE
___ material indices set via SPEDAT

Q1 f206 MB-FGE: 2D Continuous Caster Model
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ computes heat transfer
___ material indices set via SPEDAT

Q1 f207 MB-FGE: 2D Turbulent Flow Inside The 'Ar
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP

Q1 f208 MB-FGE: Swirl-flow (Re=100).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f209 FGEM, Gas Leak Example
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ material indices set via SPEDAT

Q1 f210 MB-FGE: Case 1 (WUA-CFD-94, Laminar).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f211 Linked Tank Assembly
___ uses CCM method

Q1 f212 Multi-block BFC grid for T-junction
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f213 MB-FGE: Laminar flow through 'cyclone'.
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f214 MBFGE-SCHM: X-Y convection in skewed flo
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f215 MBFGE: Swirling flow; Lin-expan. (Re=200
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f216 MBFGE: Laminar axisymmetric flow.
___ contains PHOTON USE commands for displaying results
___ uses CCM method
___ computes heat transfer
___ material indices set via SPEDAT

Q1 f217 SHOCK TUBE;Ideal-Gas P-Ro relation.
___ uses CCM method
___ computes heat transfer
___ material indices set via SPEDAT

Q1 f218 MBFGE: 2D Stirred flow (K-E).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f219 MBFGE: Flow around rotating disk (Re=1).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f220 MBFGE: 3D (Re=2000.; K-E) sliding grid.
___ uses CCM method
___ material indices set via SPEDAT

Q1 f221 MBFGE: 2D Moving 'boxes' (K-E).
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f222 MBFGE: 2 phase 2D X-flow (X-Y plane, Re=
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f223 MBFGE: 2 phase 2D X-flow (X-Y plane, Re=
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f224 MBFGE-2P: Mono-Propellant Combustion.
___ contains PHOTON USE commands for displaying results
___ uses CCM method

Q1 f301 FGE: 2D Flow around a circular object
___ uses .dat file for VR object
___ uses fine-grid-embedding
___ material indices set via SPEDAT

Q1 f302 FGE: 2D Flow around a square object
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses fine-grid-embedding

Q1 f303 FGE: Jet flow into a large duct
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f304 FGE: 3D Flow through a rectangular duct
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f305 FGE: 3D Flow around a heated object
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses fine-grid-embedding

Q1 f306 FGE: Backward Facing Step
___ uses .dat file for VR object
___ uses fine-grid-embedding
___ material indices set via SPEDAT

Q1 f307 FGE: Flow over backward facing step
___ uses .dat file for VR object
___ uses fine-grid-embedding
___ material indices set via SPEDAT

Q1 f308 FGE: Backward facing step with KEMODL mo
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses fine-grid-embedding

Q1 f309 Simple f301 (tem1, x-y plane)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f310 Simple f301 (tem1 + uniform u1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f311 Simple f301 (tem1 + heat generation)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f312 f309 for x-z plane
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f313 F310 FOR X-Z PLANE
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f314 F311 FOR X-Z PLANE
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f315 Simple f302 (tem1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f316 Simple f302 (tem1 + uniform u1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f317 Simple f303 (tem1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f318 Simple f303 (tem1 + uniform u1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f319 F317 for X-Z PLANE
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f320 F318 WITH X-Z PLANE
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f321 Simple f304 (tem1, 3D)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f322 Simple f304 (tem1 + uniform u1, 3D)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f323 Simple f306 (tem1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f324 Simple f306 (tem1 + uniform u1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding
___ uses outer iterations in FGEM solver

Q1 f325 Simple f307 (tem1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f326 Simple f307 (tem1 + uniform u1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f327 Simple f308 (tem1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f328 Simple (tem1 + uniform u1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses In-Form STORED command
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f329 3D solution of f309 (Tem1)
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f330 3D solution of f310 (tem1 with uniform u
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ uses outer iterations in FGEM solver
___ uses .dat file for VR object
___ uses fine-grid-embedding

Q1 f400 Two tubes in a semi-rectangular chamber
___ computes heat transfer
___ involves buoyancy
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 f401 Flame holders in an afterburner
___ chemical sources with eddy-break-up model
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 f402 Two-phase flow in a bifurcation
___ involves buoyancy
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 f403 SUPERSONIC FLOW OVER DIAMOND-SHAPE BODY
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 f404 Longitudinal vortex generators
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 f405 Delta-winglets behind a cylinder
___ uses .dat file for VR object
___ material indices set via SPEDAT

multi-fluid turbulence

Q1 l100 WSR, 1D (Reactedness) Population
___ uses multi-fluid turbulence model

Q1 l101 WSR, 1D Population; Flowa=5.0000E-01
___ uses multi-fluid turbulence model

Q1 l102 WSR, 1D Population; RATEXP=5
___ uses multi-fluid turbulence model

Q1 l103 AWSR transient, conmix=100 conrea=1
___ uses multi-fluid turbulence model
___ contains sources set by In-Form

Q1 l110 2d population, steady; case L110
___ uses multi-fluid turbulence model

Q1 l113 2d Population, Transient, L113
___ uses multi-fluid turbulence model

Q1 l220 1D Flame Propgn; Conmix=1 Conrea=2.5000E
___ uses multi-fluid turbulence model

Q1 l230 MFM; 1dsmoke; conmix=5
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model

Q1 l231 MFM; 1dsmoke; conmix=5
___ contains PHOTON USE commands for displaying results
___ activates IMMERSOL
___ uses multi-fluid turbulence model

Q1 l300 10-Fluid Model Of Mixing Layer; Conmix=5
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ uses dollar: source=(VAL-PHI)*CO*NAME patch

Q1 l301 1d ocean layer; 2d pop. ; v + w as PDAs
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model

Q1 l302 Round Jet; MFM; parabolic
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ uses dollar: source=(VAL-PHI)*CO*NAME patch
___ contains properties set by In-Form
___ contains sources set by In-Form

Q1 l303 Round Jet; MFM; parabolic
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ uses dollar: source=(VAL-PHI)*CO*NAME patch
___ contains properties set by In-Form
___ contains sources set by In-Form

Q1 l304 K-EP:KH instability
___ involves buoyancy
___ uses multi-fluid turbulence model

Q1 l310 Round Jet; MFM; parabolic
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ uses dollar: source=(VAL-PHI)*CO*NAME patch
___ uses In-Form STORED command
___ contains properties set by In-Form

Q1 l400 2D Combustor With Smoke Generation
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ contains lines to be read by EARTH via READQ1
___ uses conjugate-gradient solver
___ 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 l401 Case 400 With Enlarged EBU Constant, Viz
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ contains lines to be read by EARTH via READQ1
___ uses conjugate-gradient solver
___ 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 l500 MFM; Stirred Tank; Conmix=5
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ uses In-Form STORED command

Q1 l501 MFM; Stirred Tank; Nfluids = 21
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ uses In-Form STORED command

Q1 l502 MFM; Stirred Tank; Conmix=50
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ uses In-Form STORED command

Q1 l530 MFM; 3D Cmbstr; Conmix=5
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ contains lines to be read by EARTH via READQ1
___ uses conjugate-gradient solver
___ 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 l600 MFM; 3D Cmbstr; Conmix=5
___ contains PHOTON USE commands for displaying results
___ uses multi-fluid turbulence model
___ contains lines to be read by EARTH via READQ1
___ uses conjugate-gradient solver
___ 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 l999 No title has been set for this run.

MIGAL (multi-grid solver)

Q1 e001 2D Square Lid-Driven Cavity, Re=10000
___ contains PHOTON USE commands for displaying results

Q1 e002 3D Cubical Lid-Driven Cavity, Re=1000
___ uses conjugate-gradient solver

Q1 e003 2D Laminar Backward Facing Step - MIGAL
___ contains PHOTON USE commands for displaying results

Q1 e004 Turbulent Backward Facing Step - MIGAL
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver
___ material indices set via SPEDAT

Q1 e005 2D Low-Re Flow Past A Plate - MIGAL
___ contains PHOTON USE commands for displaying results

Q1 e006 Laminar Free Convection : MIGAL
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ uses conjugate-gradient solver

Q1 e007 STAGGERED TUBE BANK : MIGAL
___ contains PHOTON USE commands for displaying results

Q1 e008 Flow Around Buildings : MIGAL
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 e009 Flow-driven Cavity K-EPS MIGAL
___ material indices set via SPEDAT

Q1 e010 Comfort in a supermarket: MIGAL
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ involves buoyancy
___ material indices set via SPEDAT

Q1 e011 Racing Car Model: MIGAL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 e012 2D Low-Re Flow Past A Cylinder - MIGAL
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 e100 FLOW AROUND A SHIP'S STERN : B530

Q1 e101 Swirling Flow : MIGAL
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 e102 Salted Water Flow : MIGAL
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 e103 Darcy Flow Simulation : HYDRO + SALT
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 e104 Internal flow with blockages MIGAL/GMRES
___ solves for LTLS
___ computes WALL DISTANCE
___ LVEL model
___ material indices set via SPEDAT

Q1 e903 3D Flow Around A Moving Van : MIGAL
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

advanced numerical algorithms

Q1 n101 YX DIAGONAL SCALAR CONVECTION :N101
___ contains PHOTON USE commands for displaying results
___ uses LONGNAME

Q1 n102 YX LAMINAR WALL-DRIVEN CAVITY
___ contains PHOTON USE commands for displaying results

Q1 n103 YX LAMINAR BACKWARD-FACING-STEP FLOW
___ contains PHOTON USE commands for displaying results

Q1 n104 YX SCALAR CONVECTION WITH RECIRCULATION
___ contains PHOTON USE commands for displaying results

Q1 n105 YX TURBULENT BACKWARD-FACING-STEP FLOW
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver
___ material indices set via SPEDAT

Q1 n106 2DXZ LAMINAR WALL-DRIVEN CAVITY

Q1 n107 2DXZ TURBULENT BKWRD FACING STEP: N107
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n108 2DYX LAMINAR FLOW OVER A FENCE: N108
___ contains PHOTON USE commands for displaying results

Q1 n109 2D BFC LAMINAR WALL-DRIVEN CAVITY

Q1 n110 2D TURBULENT FLOW THROUGH AN ORIFICE
___ contains PHOTON USE commands for displaying results
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 n111 1D SHOCK-FREE TRANSONIC NOZZLE FLOW
___ contains PHOTON USE commands for displaying results

Q1 n112 1D SHOCKED TRANSONIC FLOW IN A LAVAL NOZ
___ contains PHOTON USE commands for displaying results

Q1 n113 2D TRANSONIC UNDEREXPANDED JET: N113
___ contains PHOTON USE commands for displaying results

Q1 n114 2D BLUFF-BODY STABILISED METHANE JET
___ contains PHOTON USE commands for displaying results

Q1 n115 YX BFC DIAGONAL SCALAR CONVECTION
___ contains PHOTON USE commands for displaying results

Q1 n116 YX BFC UNIFORM FLOW THROUGH A BOX
___ contains PHOTON USE commands for displaying results

Q1 n117 YX BFC UNIFORM FLOW ACROSS SKEWED BOX
___ contains PHOTON USE commands for displaying results

Q1 n121 point source, various schemes
___ contains PHOTON USE commands for displaying results
___ uses LONGNAME

Q1 n122 point source, best schemes + CLDA
___ contains PHOTON USE commands for displaying results
___ uses Conservative Low-Dispersion Algorithm
___ uses LONGNAME

Q1 n131 YX DIAGONAL SCALAR CONVECTION :N101
___ contains PHOTON USE commands for displaying results
___ uses LONGNAME

Q1 n201 CORE CASE 290 WITH JACB SOLVER :N201
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n202 CORE CASE 290 WITH GASD SOLVER :N202
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n203 CORE CASE 290 WITH ORLU SOLVER :N203
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n204 CORE CASE 290 WITH MSIP SOLVER :N204
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n205 CORE CASE 290 WITH CRGR SOLVER :N205
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n206 CORE CASE 290 WITH JACD SOLVER :N206
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n207 CORE CASE 290 WITH JACR SOLVER :N207
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n208 CORE CASE 290 WITH LUCG SOLVER :N208
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n209 CORE CASE 290 WITH LUCR SOLVER :N209
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n210 CORE CASE 290 WITH LACM SOLVER :N210
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n211 CORE CASE 290 WITH MACM SOLVER :N211
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n212 CORE CASE 290 WITH ALCM SOLVER :N212
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n213 CORE CASE 290 WITH AMCM SOLVER :N213
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 n301 GXCLDA tests : N301
___ contains PHOTON USE commands for displaying results
___ uses Conservative Low-Dispersion Algorithm
___ contains lines to be read by EARTH via READQ1

PLANT

Q1 z100 SQUARE CAVITY WITH MOVING LID:Z100
___ contains PHOTON USE commands for displaying results

Q1 z101 XYLEN FLOW IN CONV.-DIV, DUCT: Z101
___ contains PHOTON USE commands for displaying results

Q1 z102 VEHICULAR EXHAUST DISPERSION IN RAINFALL
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z103 PHASE DISTRIBUTION IN A SMOOTH EXPANSION
___ contains PHOTON USE commands for displaying results

Q1 z104 2D UNSTEADY DIFFUSION PROBLEM:Z104
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver

Q1 z105 ABSORPTIVE DISPERSAL WITH STEP-TIME DEPE

Q1 z106 FREEZING WATER IN A LID-DRIVEN CAVITY:Z1
___ contains PHOTON USE commands for displaying results

Q1 z107 2D CHANNEL FLOW WITH LINEAR INLET PROFIL
___ contains PHOTON USE commands for displaying results

Q1 z108 3D STEADY HEAT CONDUCTION IN A CUBE:108
___ contains PHOTON USE commands for displaying results

Q1 z109 RECIRCULATION IN A STILLING POND:109
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z110 3D SHELL-AND-TUBE HEAT EXCHANGER:110
___ contains PHOTON USE commands for displaying results
___ uses neighbour patch (name = NE...)

Q1 z111 ABSORPTIVE DISPERSAL WITH TIME DEPENDENT
___ contains PHOTON USE commands for displaying results

Q1 z112 COMPLEX CONVECTION DEPENDENT SOURCE:112
___ contains PHOTON USE commands for displaying results

Q1 z113 NON-ISOTHERMAL COUETTE FLOW:113
___ contains PHOTON USE commands for displaying results

Q1 z114 BRIDGED PIPE HEAT TRANSFER:114
___ contains PHOTON USE commands for displaying results

Q1 z115 SELF-STEERING UNDER-RELAXATION
___ contains PHOTON USE commands for displaying results

Q1 z116 Flow in stirred 3D vessel
___ contains PHOTON USE commands for displaying results

Q1 z117 2D HEAT CONDUCTION WITH SPACE DEPENDENT
___ contains PHOTON USE commands for displaying results

Q1 z118 3D DIFFUSION PROBLEM:118
___ contains PHOTON USE commands for displaying results

Q1 z119 2D UNSTEADY DIFFUSION PROBLEM:119
___ contains PHOTON USE commands for displaying results

Q1 z120 2D CONVECTIVE-DIFFUSION PROBLEM:120
___ contains PHOTON USE commands for displaying results

Q1 z121 1D uniform flow dispersion:121
___ contains PHOTON USE commands for displaying results

Q1 z122 3D SHELL-AND-TUBE HEAT EXCHANGER:122
___ contains PHOTON USE commands for displaying results
___ uses neighbour patch (name = NE...)

Q1 z123 CONJUGATE HEAT TRANSFER IN THICK-WALLED
___ contains PHOTON USE commands for displaying results

Q1 z124 NATURAL STIRRING IN A STABLY FLUID:124
___ contains PHOTON USE commands for displaying results

Q1 z126 Soil-water flow in a curved channel:126
___ contains PHOTON USE commands for displaying results

Q1 z127 Polysized heavy aerosol dispersion:127
___ contains PHOTON USE commands for displaying results

Q1 z128 NATURAL STIRRING IN A STABLY FLUID:124
___ contains PHOTON USE commands for displaying results

Q1 z129 NATURAL CONVECTION BETWEEN FLAT PLATES:1
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z130 BENCHMARK CASE OF MIXED CONVECTION:130
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z131 NATURAL CONVECTION IN POROUS MEDIA:131
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ material indices set via SPEDAT

Q1 z132 COMPLEX CHEMISTRY EXAMPLE:132
___ contains PHOTON USE commands for displaying results

Q1 z133 Three component mixing of different gase
___ contains PHOTON USE commands for displaying results

Q1 z134 Natural cooler in a still atmosphere:134
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ material indices set via SPEDAT

Q1 z135 3D SHELL-AND-TUBE HEAT EXCHANGER:135
___ contains PHOTON USE commands for displaying results
___ uses neighbour patch (name = NE...)

Q1 z136 FLOW IN A MODEL FURNACE:136
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z137 CANOPY-GENERATED SECONDARY FLOW:137
___ contains PHOTON USE commands for displaying results

Q1 z138 VEHICULAR EXHAUST DISPERSION IN SNOW FAL
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z139 FIRE INSIDE BUILDING ARRAY:139
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z140 HEAT TRANSFER IN ABRUPT ENLARGEMENT AT P
___ contains PHOTON USE commands for displaying results

Q1 z141 EXHAUST DISPERSION IN THE STREET:141
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z142 EXHUAST DISPERSION NEAR TOWER BLOCK:142
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z143 PHASE DISTRIBUTION IN A DUCT:143
___ contains PHOTON USE commands for displaying results

Q1 z144 ON-LINE WIND TURBINES:144
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z145 CO-LOCATED VELOCITY CALCULATION:145
___ contains PHOTON USE commands for displaying results

Q1 z146 Slumping of a liquid column by SEM meth
___ contains PHOTON USE commands for displaying results

Q1 z147 WALL DISTANCE CALCULATOR:147
___ contains PHOTON USE commands for displaying results

Q1 z244 Laminar pipe flow with non-linear resist
___ contains PHOTON USE commands for displaying results

Q1 z250 Flow straightened by vanes + resistances
___ contains PHOTON USE commands for displaying results

Q1 z251 Steady lam. fl. prop.; const=(1+y)*2.000
___ contains PHOTON USE commands for displaying results

Q1 z252 4fl fl prp; rconst=1; mconst=5.0000E-01
___ contains PHOTON USE commands for displaying results

Q1 z350 VENTS LINKED TO REMOTE DETECTOR
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ involves buoyancy

Q1 z450 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z451 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z452 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z453 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z454 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z455 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z456 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z457 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z458 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z459 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z500 3D grid of star-shaped cross section
___ contains PHOTON USE commands for displaying results

Q1 z501 3D corrugated circular pipe
___ contains PHOTON USE commands for displaying results

Q1 z502 3D S-shaped circular pipe
___ contains PHOTON USE commands for displaying results

Q1 z503 3D helically coiled pipe
___ contains PHOTON USE commands for displaying results

Q1 z504 Epicycloidal pipe
___ contains PHOTON USE commands for displaying results

Q1 z505 3D hypocycloidal beam
___ contains PHOTON USE commands for displaying results

Q1 z506 3D periodically enlarged pipe
___ contains PHOTON USE commands for displaying results

Q1 z507 3D snail-like chamber
___ contains PHOTON USE commands for displaying results

Q1 z508 3D hill-like shell
___ contains PHOTON USE commands for displaying results

Q1 z509 3D igloo
___ contains PHOTON USE commands for displaying results

Q1 z510 3D chamber with cut cylinder
___ contains PHOTON USE commands for displaying results

Q1 z511 2D zigzag channel
___ contains PHOTON USE commands for displaying results

Q1 z512 2D periodically broken channel
___ contains PHOTON USE commands for displaying results

Q1 z513 2D converging-diverging channel
___ contains PHOTON USE commands for displaying results

Q1 z514 Viscous flow in converging-diverging ch
___ contains PHOTON USE commands for displaying results

Q1 z515 Flow in gradually corrugated channel
___ contains PHOTON USE commands for displaying results

Q1 z601 Drilling star-shaped space
___ contains PHOTON USE commands for displaying results

Q1 z602 DRILling BOX: CARTES =T
___ contains PHOTON USE commands for displaying results

Q1 z603 DRILling CYLINDER: CARTES=F
___ contains PHOTON USE commands for displaying results

Q1 z604 HEXAGON 2D : SFT ANALYSIS FOR A MODEL
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ material indices set via SPEDAT

Q1 z605 Five examples initialization box
___ contains PHOTON USE commands for displaying results

Q1 z607 Analytical BFC grids : 2D sample-kit.
___ contains PHOTON USE commands for displaying results

Q1 z608 Analytical BFC grids : 3D sample-kit.
___ contains PHOTON USE commands for displaying results

Q1 z609 Gradually corrugated channel
___ contains PHOTON USE commands for displaying results

Q1 z610 Unsteady mixing in two paddle-stirred r
___ contains PHOTON USE commands for displaying results

Q1 z611 2D Stress in solid, XY plane
___ contains PHOTON USE commands for displaying results

Q1 z612 SQUARE CAVITY WITH MOVING LID:Z100
___ contains PHOTON USE commands for displaying results

Q1 z613 Global and self-steering under-relaxatn
___ contains PHOTON USE commands for displaying results

Q1 z614 Conjugate heat transfer of rotating obj
___ contains PHOTON USE commands for displaying results

Q1 z615 Inlet flux scaling: swirling flow in a c
___ contains PHOTON USE commands for displaying results

Q1 z616 CONFINED JET FLOW: 17 FLUID MFM
___ contains PHOTON USE commands for displaying results

Q1 z617 2dxy uniform heating.
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ contains lines to be read by EARTH via READQ1
___ material indices set via SPEDAT

Q1 z618 Block passing through orifice
___ contains PHOTON USE commands for displaying results

Q1 z619 TIME STEP CALCULATIONS

Q1 z620 Idealised Gas-Turbine Combustion Chamber
___ contains PHOTON USE commands for displaying results
___ contains lines to be read by EARTH via READQ1
___ uses conjugate-gradient solver
___ 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

Q1 z622 Expanding and contracting the grid
___ contains PHOTON USE commands for displaying results

Q1 z623 Plane Jet;Mixing Length Model;Para
___ contains PHOTON USE commands for displaying results
___ Prndtl Mixing-Length model

Q1 z711 1D Fine coal-particle combustion
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 z712 Convection-only steady combustion of CO
___ contains PHOTON USE commands for displaying results

Q1 z713 Combustion of packed bed of coke
___ contains PHOTON USE commands for displaying results

Q1 z714 Ore reduction in a packed bed
___ contains PHOTON USE commands for displaying results

Q1 z721 Combustion-driven coke flow
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z722 Fines-and-coke-combustion-driven solid f
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z723 Combustion-fusion-driven solid flow
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z731 Combustion-melting-driven ore/coke mixtu
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z741 Combustion-driven raceway :coal fines an
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 z742 Coal fines flame in a coke bed: raceway
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 z751 SAFIR 2D: blast furnace model
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z761 System level coke combustion simulation
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 z762 Environmental level coke combustion simu
___ contains PHOTON USE commands for displaying results
___ involves buoyancy
___ material indices set via SPEDAT

Q1 z763 Melting of solid flow
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

advanced radiation

Q1 r100 CVD REACTOR RADIATION EXAMPLE : R100
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r101 CVD REACTOR RADIATION EXAMPLE(BFC): R101
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r102 LAMINAR FLOW BETWEEN PARALLEL PLATE:R102
___ computes heat transfer

Q1 r103 TURB. FLOW BETWEEN PARALLEL PLATE: R103
___ computes heat transfer

Q1 r105 1-D Y-DIRECTION SHELL SURFACE: R105
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 r107 1-D Y-DIRECTION SOLID SURFACE : R107
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ star-name patch: source=CO*PHI*NAME**VAL
___ material indices set via SPEDAT

Q1 r108 1-D Y-DIRECTION SHELL SURFACE: R108
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 r111 1-D FIXED SURFACE TEMPERATURE : R111
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r113 1-D FIXED-FLUX FLUID SURFACE : R113
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 r114 1-D FIXED-FLUX SOLID SURFACE : R114
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r115 1-D CARTESIAN Y-DIRECTION : R115
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r116 1-D SOLID-FLUID-SOLID SET-UP: R116
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r118 1-D THIN PLATE : R118
___ contains PHOTON USE commands for displaying results
___ computes heat transfer

Q1 r119 1-D TRANSIENT : R119
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r120 SQUARE CAV. WITH MOVING LID + RADI:R120
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r121 1D RADIATIVE EQUILIBRIUM IN SLAB : 121
___ contains PHOTON USE commands for displaying results

Q1 r122 1D RADIATION+HEAT SOURCE IN A SLAB:122
___ contains PHOTON USE commands for displaying results

Q1 r123 1D RADIATION+HEAT SOURCE IN A TUBE:123
___ contains PHOTON USE commands for displaying results

Q1 r124 BFC RADIATION+HEAT SOURCE IN A TUBE:124
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 r125 BFC RADIATION+HEAT SOURCE IN A SLAB:125
___ contains PHOTON USE commands for displaying results

Q1 r190 Gateway to IMMERSOL library cases

Q1 r193 No title has been set for this run.

Q1 r194 No title has been set for this run.

Q1 r195 No title has been set for this run.

Q1 r196 No title has been set for this run.

Q1 r197 No title has been set for this run.

Q1 r198 No title has been set for this run.

Q1 r199 No title has been set for this run.

Q1 r200 No title has been set for this run.

Q1 r201 IMMERSOL 1D transparent medium :201
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ material indices set via SPEDAT

Q1 r202 IMMERSOL 1D Radiative equilibrium :202
___ 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

Q1 r203 IMMERSOL 1D Radiative equilibrium :203
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ material indices set via SPEDAT

Q1 r204 2D TEM1 + T3, Participating gas
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses In-Form STORED command
___ material indices set via SPEDAT

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

Q1 r206 IMMERSOL-WALL 1D for TEM1 + T3. :206
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL

Q1 r207 IMMERSOL-WALL 1D for H1-T3. :207
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses In-Form STORED command

Q1 r208 IMMERSOL- 1D fixed flux through domain
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL

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

Q1 r210 2D radiative heat exchange,H1 + T3:210
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ material indices set via SPEDAT

Q1 r211 2D radiative heat exchange, + SCRS :211
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ chemical sources with eddy-break-up model
___ material indices set via SPEDAT

Q1 r212 IMMERSOL-SCRS 2D model of burner :212
___ contains PHOTON USE commands for displaying results
___ 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
___ 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
___ 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
___ computes WALL GAP
___ solves for LTLS
___ computes WALL DISTANCE
___ activates IMMERSOL
___ material indices set via SPEDAT

Q1 r221 IMMERSOL 1D between thick conducting wal
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 r222 IMMERSOL 1D Radiative equilibrium :202
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 r230 No title has been set for this run.
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r231 No title has been set for this run.
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r232 No title has been set for this run.
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r233 No title has been set for this run.
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r234 No title has been set for this run.
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r235 No title has been set for this run.
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r236 No title has been set for this run.
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r237 No title has been set for this run.
___ solves for LTLS
___ computes heat transfer
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r238 No title has been set for this run.
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r239 No title has been set for this run.
___ solves for LTLS
___ computes heat transfer
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r240 No title has been set for this run.
___ computes heat transfer
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r241 No title has been set for this run.
___ solves for LTLS
___ computes heat transfer
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r242 No title has been set for this run.
___ solves for LTLS
___ computes heat transfer
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r243 No title has been set for this run.
___ solves for LTLS
___ computes heat transfer
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r244 No title has been set for this run.
___ solves for LTLS
___ computes heat transfer
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r245 No title has been set for this run.
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ solves for LTLS
___ Prndtl Mixing-Length model
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r333 No title has been set for this run.
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 r400 IMMERSOL for heat-treatment furnace
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 r401 A Radiant Heater Panel
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses In-Form STORED command

Q1 r402 Buoyancy-induced cooling of a radiating
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ involves buoyancy
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r403 Heat treatment in a direct-fired furnace
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ chemical sources with eddy-break-up model
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses In-Form STORED command

Q1 r404 Thermal radiation in a compartment fire
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ involves buoyancy
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses In-Form STORED command

Q1 r405 Convection affected by radiation
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ involves buoyancy
___ uses In-Form STORED command
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 r406 Lid-driven flow in a radiating cavity
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses In-Form STORED command

Q1 r407 Radiative oven
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes WALL GAP
___ activates IMMERSOL
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT
___ uses In-Form STORED command

Q1 r408 A stove with significant radiation
___ contains PHOTON USE commands for displaying results

Q1 r409 Wall-fired model furnace: P-1 radiation
___ contains PHOTON USE commands for displaying results
___ uses .dat file for VR object

body-fitted coordinates

Q1 bref No title has been set for this run.

Q1 adme No title has been set for this run.

Q1 s101 Cube in X-direction tension; S101
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s102 Cube in Y-direction tension; S102
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s103 CUBEINX-DIRECTIONTENSION
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s104 Pressurised long cylinder; 1Dy
___ Q1 is used as PROPS file via MATFLG entries
___ 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 bent beam; engineer's theory;s105
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 s106 Stress in a rotating disk; 1Dy
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ 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
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s200 2D Plate with polynomial stress function
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s201 2D xy Plate with square hole; s201
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s202 2D xy Plate with CIRCULAR hole; s202
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains initial values set by In-Form
___ material indices set via SPEDAT
___ contains sources set by In-Form
___ uses LONGNAME
___ uses In-Form STORED command

Q1 s203 Polar Plate with CIRCULAR hole
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ 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
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains initial values set by In-Form
___ material indices set via SPEDAT

Q1 s205 2D xz plate in z-direction tension; s205
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s206 2D yz-plate in z-direction tension; s206
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s208 2D xy 2-material plate in tension; s208
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s209 2D xy plate in compression; two material
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 s210 2D xy Plate of two materials + TEM; s210
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 s211 2D bent beam in plane strain; s211
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s212 Plate; 2D[xy]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s220 bent beam in plane strain; s220
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s221 square channel;2D[xy]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s222 Pressurised long cylinder [X,Y]
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s223 Pressurised long cylinder [R,Z]
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s224 Pressurised cylinder [R,Z] with Hole
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ material indices set via SPEDAT

Q1 s225 Pressurised cylinder [R,Z] with Hole and
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s226 Centre-Heated, Edge-Cooled Block
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ material indices set via SPEDAT

Q1 s227 Multi-Physics. Reyno= 1000 Unit=12
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL GAP
___ computes WALL DISTANCE
___ activates IMMERSOL
___ computes heat transfer
___ LVEL model
___ contains initial values set by In-Form
___ contains sources set by In-Form
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 s228 Pressurised long cylinder [X,Y]
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s230 Plate with square hole;2D[xy]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s240 square channel;2D[xy]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s242 square channel;2D[xy]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s250 square channel + TEM1;2D[xy]
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s251 Plate with square hole;2D[xy]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s252 square channel + TEM1;2D[xy]
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s254 square channel + TEM1;2D[xy]
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s258 Plate of two Horizontal materials; 2D[xy
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s259 Plate of two Vertical materials; 2D[xy]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s260 BiPlate of two materials + TEM; 2D[xy]
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s261 Stress in a rotating disk; 2D[x,y]
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s262 Model of turbine rotor
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s263 Model of turbine rotor with big Blades
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s301 3D Prismatic bar + gravity force; s301
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s302 1/2/3D thermal stress in a cub; s302
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ contains initial values set by In-Form
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s303 3D block in y-direction compression
___ Q1 is used as PROPS file via MATFLG entries
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s304 3D TORSION of beam; s304
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s305 3D TORSION of thin Beam; s305
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s307 3D block in y-direction compression; s30
___ Q1 is used as PROPS file via MATFLG entries
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s351 3D Prismatic bar + gravity force
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s352 1/2/3D thermal stress in a cube; s352
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ contains initial values set by In-Form
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s401 2D Flow Past A Bent Solid Plate; S401
___ contains PHOTON USE commands for displaying results
___ plate porosity set via SPEDAT
___ uses In-Form STORED command

Q1 s402 2D Flow Past A Bent Solid Plate; S402
___ contains PHOTON USE commands for displaying results
___ plate porosity set via SPEDAT
___ uses In-Form STORED command

Q1 s501 cube in x-direction tension
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 s502 cube in y-direction tension
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 s504 Pressurised long cylinder; 1Dy
___ Q1 is used as PROPS file via MATFLG entries
___ contains lines to be read by EARTH via READQ1
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s508 USP: Stress in a 2D rotating disk; S508
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s511 USP: 2D xy plate in tension;U501
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s512 USP: 2D xy Hot Bi-metallic plate
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s513 USP.USP: 2D Plate in tension with FY=var
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s514 USP:2D xy Plate with CIRCULAR hole; us20
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT
___ uses In-Form STORED command
___ contains sources set by In-Form
___ uses .dat file for VR object

Q1 s515 USP: 2D xy Plate with square hole; U505
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s516 USP: Cooled long cylinder
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s517 USP: Pressurised long cylinder;U507
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s518 USP: Stress in a 2D rotating disk; S508
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s550 3D Thermal Stress In BLADE
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s600 2D Plate with polynomial stress function
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s601 2D xy Plate with square hole; S601
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s602 mechanical stress in a cube
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s603 Polar Plate with CIRCULAR hole
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 3res No title has been set for this run.

Q1 s604 2D xy 2-material plate in tension; S604
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains initial values set by In-Form
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s605 2D xy plate in y-direction tension; S605
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s606 THERMal stress in a cube
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s622 Pressurised long cylinder [X,Y]
___ Q1 is used as PROPS file via MATFLG entries
___ 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
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s630 Cooled long cylinder [polar]
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s631 Cooled long cylinder [Cartesian]
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s660 Bi-Metalic Plate of two materials + TEM
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s661 Stress in a rotating 2D[x,y] disk; S661
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ 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
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s670 Wave in 1DX free beam; S670
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains initial values set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s671 Wave in fixed 1D x beam; S671
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s672 2D wave in "T" beam; S672
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s673 Free wave in 2D "tuning-fork" model; S67
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s674 The steep propagating 1DY wave; S674
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s675 The steep propagating 2DXY wave; S675
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s698 Cartesian Pressurised long cylinder;S699
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains initial values set by In-Form
___ material indices set via SPEDAT

Q1 s699 Cartesian Pressurised long cylinder;S699
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains initial values set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 s701 3D Prismatic bar + gravity force; s701
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s702 1/2/3D thermal stress in a cub; s302
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT
___ contains initial values set by In-Form
___ uses In-Form STORED command
___ contains sources set by In-Form

Q1 s703 3D block in y-direction compression
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses LONGNAME
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s704 3D TORSION of beam; s704
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s705 3D TORSION of thin Beam; s705
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s799 2D VR-bar + gravity force; s799
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 s801 2D Fluid flow around an beam; S801
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s802 Thermal Stress In Heated/Cooled Block
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ LVEL model
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 s803 2D Fluid flow around an elastic beam;S80
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s804 heat exchanger with stress
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ LVEL model
___ involves buoyancy
___ contains sources set by In-Form
___ material indices set via SPEDAT

Q1 s901 Steady 2DXY Piezoelectric; S901
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 s902 Full Steady 2DXY Piezoelectric; S902
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT
___ uses .dat file for VR object

Q1 s903 Transient 2DXY Piezoelectric; S903
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ uses In-Form STORED command
___ contains sources set by In-Form
___ time-dependent source set by In-Form
___ material indices set via SPEDAT

Q1 s999 Steady 2DXY Piezoelectric; S903
___ contains PHOTON USE commands for displaying results
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 bref No title has been set for this run.

advanced turbulence

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

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

Q1 t102 RNG K-E_1D DEVELOPED PIPE FLOW:T102

Q1 t103 K-OMEGA_BKWRD FACING STEP Y-X :T103
___ material indices set via SPEDAT

Q1 t104 CHEN KIM K-E MODEL_PARAB PLANE JET :T104
___ contains PHOTON USE commands for displaying results

Q1 t105 CHEN KIM K-E MODEL_PARAB ROUND JET :T105
___ contains PHOTON USE commands for displaying results

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

Q1 t200 VAN DRIEST_1D PLANE COUETTE FLOW :T200
___ Prndtl Mixing-Length model

Q1 t201 VAN DRIEST_1D DEVELOPED PIPE FLOW :T201
___ Prndtl Mixing-Length model

Q1 t202 VAN DRIEST_2D PARAB BOUNDARY LAYER :T202
___ Prndtl Mixing-Length model

Q1 t204 VAN DRIEST_2D-YX ELLIP CHANNL FLOW :T204
___ Prndtl Mixing-Length model

Q1 t205 LAM-BRE KE_1D PLANE COUETTE FLOW :T205
___ solves for LTLS
___ computes WALL DISTANCE

Q1 t206 LAM-BRE KE_1D DEVEL CHANNL FLOW :T206
___ solves for LTLS
___ computes WALL DISTANCE

Q1 t207 K-OMEGA_1D DEVELOPED PIPE FLOW :T207
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 t208 LAM-BRE K-E BKWRD-FACING STEP Y-X :T208
___ solves for LTLS
___ computes WALL DISTANCE
___ material indices set via SPEDAT

Q1 t211 LAM-BRE K-E_2D PARABOLIC PIPE FLOW :T211
___ solves for LTLS
___ computes WALL DISTANCE

Q1 t212 LAM-BRE K-E_2D PARAB BNDRY LAYER :T212
___ solves for LTLS
___ computes WALL DISTANCE

Q1 t213 CHEN-KIM_2D ABRUPT PIPE EXPANS :T213
___ solves for LTLS
___ computes WALL DISTANCE
___ material indices set via SPEDAT

Q1 t214 LAM-BRE K-E TURB. FLOW IN U-DUCT :T214
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE

Q1 t215 LAM-BRE_2D Y-Z NOPOR CHANNEL TEST :T215
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 t216 LAM-BRE_2D Y-Z POROS CHANNEL TEST :T216
___ solves for LTLS
___ computes WALL DISTANCE
___ material indices set via SPEDAT

Q1 t217 LAM-BRE_2D Y-Z CONJ CHANNEL TEST :T217
___ computes heat transfer
___ computes WALL DISTANCE
___ solves for LTLS
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 t300 2D Turbulent Free Convection In A Cavity
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE
___ computes heat transfer
___ involves buoyancy

Q1 t301 2D BLUFF-BODY STABILISED METHANE JET
___ contains PHOTON USE commands for displaying results

Q1 t302 KO_2D FLOW THROUGH A ORIFICE PLATE :T302
___ contains PHOTON USE commands for displaying results
___ uses LONGNAME
___ material indices set via SPEDAT

Q1 t303 YAP_KE 2D IMPINGING ROUND JET: T303
___ contains PHOTON USE commands for displaying results
___ solves for LTLS
___ computes WALL DISTANCE

Q1 t304 CK KE_1D PIPE POWER-LAW FLUID :T304
___ solves for LTLS
___ computes WALL DISTANCE

Q1 t305 KE_PIPE FLOW OF A BINGHAM FLUID: T305

Q1 t306 T306: 2D KE ROUGH-WALL BOUNDARY LAYER
___ contains PHOTON USE commands for displaying results
___ uses conjugate-gradient solver

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

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

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

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

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

Q1 t405 2S K-E MODEL_BKWRD FACING STEP Y-X :T405
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

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

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

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

Q1 t502 1D Turb Pipe Flow + Heat Trans
___ computes heat transfer

Q1 t503 USE OF EARTH GENERATED WALL-FUNCTIONS
___ contains PHOTON USE commands for displaying results
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 t600 RSTM_1DY DEVELOPED CHANNEL FLOW :T600
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 t602 RSTM_1D DEVELOPED PIPE FLOW :T602
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 t603 RSTM_2D PARABOLIC PLANE JET :T603

Q1 t604 RSTM_2D PARABOLIC PLANE WALL JET :T604

Q1 t605 RSTM_1D ROTATING PIPE FLOW :T605
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ material indices set via SPEDAT

Q1 t606 RSTM_1DY PLANE COUETTE FLOW :T606

Q1 t607 RSTM_2DY-Z PARABOLIC CHANNEL :T60

Q1 t608 RSTM_3D DVLPD DUCT FLOW/HEAT TRANS :T608
___ contains PHOTON USE commands for displaying results

Q1 t609 RSTM_2D IMPINGING ROUND JET :T609

Q1 t610 2D LES SQUARE CYLINDER- steady precursor
___ solves for LTLS
___ computes WALL DISTANCE
___ Prndtl Mixing-Length model
___ material indices set via SPEDAT

Q1 t611 2D LES SQUARE CYLINDER- unsteady run
___ solves for LTLS
___ computes WALL DISTANCE
___ Prndtl Mixing-Length model
___ uses In-Form STORED command
___ material indices set via SPEDAT

Q1 t900 No title has been set for this run.

Q1 t950 No title has been set for this run.

two-phase flow

Q1 w100 EQUVEL input-file fragment :W100

Q1 w350 1D STEADY BOILING IN PIPE: W350
___ contains PHOTON USE commands for displaying results

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

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

Q1 w370 2D STEADY BOILING IN PIPE: W370
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 w371 AREA RESTRICTION AT QUARTER LENGTH: W371
___ contains PHOTON USE commands for displaying results

Q1 w372 2D STEADY BOILING IN PIPE: W370
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 w410 0D UNSTEADY BOILING IN VESSEL: W410

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

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

Q1 w421 SUDDEN TILTING OF TWO-FLUID CHANNEL:W421
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 w422 1D TRANSIENT THERMOSYPHON : W422
___ involves buoyancy

Q1 w423 fluids moving in opposite directions:423
___ contains PHOTON USE commands for displaying results

Q1 w425 1D TRANSIENT PIPE FILLING : W425

Q1 w427 THE TILTING OF A BOX : W427
___ contains PHOTON USE commands for displaying results

Q1 w428 Oil slick in a gulf with wind: W428
___ contains PHOTON USE commands for displaying results

Q1 w430 transient air-lift pump :W430
___ contains PHOTON USE commands for displaying results

Q1 w440 AREA RESTRICTION AT QUARTER LENGTH: W440
___ contains PHOTON USE commands for displaying results

Q1 w441 TRANSIENT 2PH FLOW WITH MOVING WALL:W441
___ contains PHOTON USE commands for displaying results

Q1 w468 EQUVEL input-file fragment :W100
___ contains PHOTON USE commands for displaying results

Q1 w568 PLANE 2PHS FLOW IN TURNAROUND DUCT: W568
___ contains PHOTON USE commands for displaying results

Q1 w569 2PHS NON NEWTONIAN FLOW IN DUCT : W569
___ contains PHOTON USE commands for displaying results

Q1 w570 MONOPROPELLANT ROCKET : W570
___ uses SHADOW method of size calculation

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

Q1 w573 ROUND JET;K-E 2PHS TURB MODULATION: W573
___ contains PHOTON USE commands for displaying results

Q1 w574 2PH BACKWARD-FACING-STEP K-E MODEL: W574
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 w575 EFFECT OF SWIRL : W575
___ contains PHOTON USE commands for displaying results

Q1 w576 W574 with heat transfer; EQUVEL=T : W576
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 w577 2 PHASE DEMO - DP = 1.0E-4 : W577
___ contains PHOTON USE commands for displaying results

Q1 w578 2PHS FLOW IN TURNAROUND DUCT : W578
___ contains PHOTON USE commands for displaying results

Q1 w580 2 PH BACKWARD STEP,WITH GRAVITY :W580
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 w581 2-PHASE STEADY SEDIMENTATION; PARAB:W581
___ contains PHOTON USE commands for displaying results

Q1 w700 W576 with extra cold light-phase inflow
___ contains PHOTON USE commands for displaying results
___ material indices set via SPEDAT

Q1 w771 1-D TRANSIENT SEDIMENTATION :W771
___ contains PHOTON USE commands for displaying results

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

Q1 w773 1-D SEDIMENTATION; parametric study:W773
___ contains PHOTON USE commands for displaying results

Q1 w775 2D channel flow as in tray column :W775
___ contains PHOTON USE commands for displaying results

Q1 w799 3D SHELL-AND-TUBE CONDENSER : W799
___ contains PHOTON USE commands for displaying results
___ uses neighbour patch (name = NE...)

Q1 w800 AS FOR CASE W799 BUT TRANS. : W800
___ contains PHOTON USE commands for displaying results
___ uses neighbour patch (name = NE...)

Q1 w801 ALLOW FOR METAL CAPACITY : W801
___ contains PHOTON USE commands for displaying results
___ uses neighbour patch (name = NE...)

Q1 w802 3D STEAM GENERATOR : W802
___ contains PHOTON USE commands for displaying results

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

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

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

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

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

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

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

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

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

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

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

Q1 w885 Boiling Droplets in a Duct
___ contains PHOTON USE commands for displaying results
___ involves buoyancy

Q1 w886 Boiling 2-Phase Flow in S-bend Duct:W886
___ contains PHOTON USE commands for displaying results

Q1 w887 BOILING , NO GRAVITY : W887

Q1 w888 BOILING , LONGITUDINAL GRAVITY : W888

Q1 w889 BOILING ,TRANSVERSE GRAVITY : W889

Q1 w890 MONOPROPELLANT ROCKET : W890
___ uses SHADOW method of size calculation

Q1 w891 PROBLEM 2.4. SEDIMENTATION : W891

Q1 w892 SEDIMENTATION WITH RHO2=0.2 : W892

Q1 w893 SEDIMENTATION WITH SMALLER FRICTION W893

Q1 w894 WATER DISPLACED BY AIR FROM ABOVE :W894
___ contains PHOTON USE commands for displaying results

Q1 w895 WATER DISPLACED BY AIR FROM BELOW :W895
___ contains PHOTON USE commands for displaying results

Q1 w896 COMPRESSION OF AIR BY WATER :W896
___ contains PHOTON USE commands for displaying results

Q1 w897 BOILING , NO GRAVITY : W897
___ contains PHOTON USE commands for displaying results

Q1 w898 BOILING , LONGITUDINAL GRAVITY : W898
___ contains PHOTON USE commands for displaying results

Q1 w899 BOILING ,TRANSVERSE GRAVITY : W899
___ contains PHOTON USE commands for displaying results

Q1 w900 STRATIFIED FLOW, CASE 1 CHANNEL : W900

Q1 w901 STRATIFIED FLOW, CASE 2 PIPE : W901

Q1 w902 TRANSIENT DRAINAGE FROM A PIPE W902

Q1 w903 Kelvin-Helmholtz instability : W903

Q1 w904 KELVIN-HELMHOLTZ; RHO1=1.01 : W904

Q1 w905 KELVIN-HELMHOLTZ; RHO2=1.10 : W905

Q1 w906 PROBLEM 3F RHO2=2.0 : W906

Q1 w907 PROBLEM 3F RHO2=10.0 : W907

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

Q1 w909 TEE-JUNCTION : W909
___ contains PHOTON USE commands for displaying results

Q1 w917 PROBLEM 4.1 - 2D SEDIMENTATION : W917

Q1 w918 STIRRED TANK; RUN1 STRONG STIRRING: W918
___ contains PHOTON USE commands for displaying results

Q1 w919 STIRRED TANK; RUN2 WEAK STIRRING : W919
___ contains PHOTON USE commands for displaying results

Q1 w920 STIRRED TANK; RUN3 NO STIRRING : W920
___ contains PHOTON USE commands for displaying results

Q1 w971 Rock2; 2D MONOPROPELLANT ROCKET :W971
___ contains PHOTON USE commands for displaying results
___ uses SHADOW method of size calculation

Q1 w972 Stafford's saline-layer experiment
___ contains PHOTON USE commands for displaying results

Q1 w974 Mixing in a duct; Two-Fluid Model :W97
___ contains PHOTON USE commands for displaying results
___ uses two-fluid turbulence model
___ material indices set via SPEDAT

Q1 w975 RUN1 COUETTE BUOY CONST=1.E2 : 975
___ uses two-fluid turbulence model
___ involves buoyancy

Q1 w976 Backward-Facing Step;2-Fluid Model: 976
___ uses two-fluid turbulence model
___ material indices set via SPEDAT

Q1 w977 Steady 2-fluid ducted flame; parab:W977
___ contains PHOTON USE commands for displaying results
___ uses two-fluid turbulence model
___ chemical sources

Q1 w978 1D PISTON-IN-CYLINDER; 2-FLUID : 978
___ uses two-fluid turbulence model

Q1 w979 1-D transient shock-induced prpgtn :W979
___ contains PHOTON USE commands for displaying results
___ chemical sources
___ uses two-fluid turbulence model
___ In-Form used to "MAKE" variables
___ uses In-Form STORED command
___ special print-out activated via SPEDAT

Q1 w980 Flame spread in duct, 1D analysis

Q1 work No title has been set for this run.

Q1 010a XY Duct, USP Test
___ uses In-Form STORED command
___ uses .dat file for VR object

Q1 010b XY Duct, USP Test
___ uses In-Form STORED command
___ uses .dat file for VR object

Q1 010c XY Duct, USP Test
___ uses .dat file for VR object

Q1 020a USP Test 20 a. Flow around of cylinder.
___ material indices set via SPEDAT

Q1 021a Test 21 a. Flow around of cylinder (fine
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u701 USP. Test conductivity with AGG.
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u702 Test 702. Flow around small body with AG
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u703 USP. 2D Steady Heat Conduction
___ computes heat transfer
___ material indices set via SPEDAT
___ uses In-Form STORED command
___ uses .dat file for VR object

Q1 u704 3D burner;10,10,20 Grid
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u705 USP 705. Cubical Building, uniform Flow,
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u706 USP 706. Cubical Building, uniform Flow,
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u707 U707. Temperature in complex Body.
___ computes heat transfer
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u708 USP 708. Flow into complex body
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u709 USP 709. Faucet for mixing hot and cold
___ computes heat transfer
___ Q1 is used as PROPS file via MATFLG entries
___ contains sources set by In-Form
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u710 Turn-around duct; Fine Grid
___ contains PHOTON USE commands for displaying results
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 u711 2D Cylinder; 1,10,20 Grid
___ contains PHOTON USE commands for displaying results
___ uses .dat file for VR object
___ material indices set via SPEDAT

Q1 sp_2 3D Steady Heat Conduction In Cube
___ computes heat transfer
___ uses .dat file for VR object