Safety of Vital Activity department,

Moscow State Institute of Steel and Alloys

Contents

1. About ourselves.
2. What are our specialities.
3. For whom we have worked.
4. Some examples of our work.

1. Who we are.
   • B.S.Mastryukov, D.Sc., Professor, Dean of the Power-Ecology faculty, Head of the Safety of Vital Activity department, Moscow State Institute of Steel and Alloys (Technological university)
   • A.V.Ivanov, post-graduate student at the Safety of Vital Activity department, Moscow State Institute of Steel and Alloys (Technological university)
2. Where we are. Moscow State Institute of Steel and Alloys (MISA) (Technological university), 4 Leninsky avenue, Moscow, Russia 117936, Phone (fax): (7-095)230-4561, E-mail: BORISM@EEF.MISA.AC.RU
3. How long we have been active users of PHOENICS. We have been active users for 2 years, since 1996

Our specialities are mostly in application terms, namely:

• air-pollution simulation;
• risk analysis of accident consequences (e.g. intoxication, thermal fields, explosion shock waves and others).

The papers are as follows:

• Ivanov A.V., Gusev E.V., Mastryukov B.S., Miroshkina L.A.
  Simulation of multisource waste gases dispersion in town conditions/
  Izvestiya VUZov. Tsvetnaya metallurgiya (Non- ferrous Metallurgy),No 2, 1997, pp.73-80. (in Russian)
• Mastryukov B.S., Ivanov A.V., Fomin S.J., Dovgoruck E.I.
  Prediction of local manmade emergency consequences/
  Problemy bezopastnosti pri cherezvychaynych situatsyjach (Problems of safety in emergency),No 5, 1998, pp.18-27. (in Russian)
• Ivanov A.V., Mastryukov B.S.
  Prediction of the transfer of ammonia accidental releases in the urban atmosphere/
  Izvestiya VUZov. Tsvetnaya metallurgiya (Non-ferrous Metallurgy) (to be published in Russian)

We have worked for the Moscow State steel and alloys institute purposes only.

The calculation of the dispersion of ammonia vapours in the buildings complex of the real district in Moscow resulted from the tanks wreck leakage of the liquefied toxic gas.

Obtained results as transient concentration fields were used to calculate fields of damage of a toxic influence at various meteorological conditions by means of the EMERGENCY code which represents a written in DELPHI 2 compatible with PHOENICS output file format application running under WINDOWS 95.

It allows performing the quantitative risk assessment of an influence of various hazardous factor fields.

The PHOENICS investigation of electro-contact heating

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