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2013 | 13 | 3 |

Tytuł artykułu

Computer modeling of destructive fire hazards dynamics

Autorzy

Treść / Zawartość

Warianty tytułu

RU
Komp'juternoe modelirovanie dinamiki opasnykh faktorov pozhara

Języki publikacji

EN

Abstrakty

EN
RU

Wydawca

-

Rocznik

Tom

13

Numer

3

Opis fizyczny

p.146-151,fig.,ref.

Twórcy

autor
  • Volodymyr Dahl East-Ukrainian National University, Molodizhny bl., 20a, Lugansk, 91034, Ukraine

Bibliografia

  • 1.Bezuglov O.E. 2008.: Mathematical model of mean bulk temperature in the room at the initial stage of the fire. The problems of fire safety. H.: NUGZU, Vol. 24, 11-15.
  • 2.Brushlinskiy N.N., Korolchenko A.J., 2000.: Simulation of fires and explosions. M. Pozhnauka, 482.
  • 3.Bychenko A.A., Snytyuk У.Е., 2007.: Fuzzy identification of the propagation of fires especiallydangerous facilities under uncertainty. Journal ChSTU. Cherkasy: ChSTU, № f-2, 43-45.
  • 4.Drobnich U.P., 2008.: Models fires in the area. Prevented rescue help: XII Scientific Conference of students and students in April 2008: Proceedings. Kharkov: UGZU, 8-10.
  • 5.Fedorov A.I., Bezuglov O.E., 2008.: Assessing the maximum temperature in the room at the initial stage of the fire. The problems of fire safety. H.: NUGZU, Vol. 27, 22f-225.
  • 6.Grigorenko E.V. 2001.: On mathematical models of fire in the room. Collection. Science. UkrFSRI Avenue, LIPB "Fire Safety - 2001". Lviv: compound, 336.
  • 7.Gutov V.N. 1987.: Zoned mathematical model developed stage of fire. Safety of people in fires in buildings. M., 62-69.
  • 8.Kovalyshyn V.V. Boiko T.V., Zinchenko, I.M., 2009.: Modeling of influence of combustion products into the cell fires in a closed circuit. Fire safety, № 14, 166-171.
  • 9.Lisitsyn O.G., Badrushko S.N., 2006.: Features of development of a fire in closed residential and administrative buildings. Herald of PSU. Polotsk: PSU, №9, 33.
  • 10.Molchadsky I.S. 2005.: A fire in the room. M.: Fire Prevention, 456 p.
  • 11.Morgunov K.P., Morgunova T.Y., 1989.: Numerical calculation of the velocity field and temperature of the air under fire. Construction and architecture, № 3, 92-95.
  • 12.Nightmare J.A. 2000.: Prediction of fire hazards in the room. Moscow: Academy of GPS, 118.
  • 13.Nikitin E.V. 2001.: Features predicting the basic parameters of a fire in confined spaces. Collection. Science. UkrFSRI Avenue, LIPB "Fire Safety -2001". Lviv: compound, 336.
  • 14.Novak S.V., Kharchenko I.A., Khmelnitsky V.V., Kruokskvy P.G., 1995.: Mathematical modeling of thermal processes in solving the problems of fire safety. Problems of fire safety. Kiev: Ministry of interior of Ukraine, 349-351.
  • 15.Pilipenko V. 2012.: Mathematical model-building of reological and thermodynamical processes in modified concrete mix at vibro impact compact method of comression. TEKA. Commission of motorization and energetics in agriculture - 2012, Vol. 12, No.4, 204-209.
  • 16.Puzach S.V. 2005.: Methods for calculating the heat and mass transfer in a fire at the premises and their application in solving practical problems of fire and explosion. Moscow: Academy of Russian Ministry for Emergency Situations, 336.
  • 17.Puzach S.V. Kazennov V.M., 2003.: Modified integral calculation model Thermogasdynamics fire in the room. Textbook. Moscow: Academy of Russian Ministry for Emergency Situations, 43.
  • 18.Ryzhov A.M. 2000.: Three-dimensional (CFD) modeling of fire with the processes of combustion and emission: some problems and solutions. Fire and explosion. M. Pozhnauka, № 1, 38-49.
  • 19.Sharshanov A.J. 1999.: Using PC-based programs in studies of the spread of fire fighting. Fire safety. Scientific publication. Cherkasy: CHIPB Internal Affairs of Ukraine, 83-85.
  • 20.Snytyuk V.E., Bychenko A.A., 2007.: Evolutionary modeling of the spread of fire. In Proceedings of the XIII Int. Conf. «Knowledge-Dialogue-Solution», Varna, 247-254.
  • 21.Sokolov V., Azarenko N., Sokolova Y., 2012.: Simulation of the power unit of the automatic electrohydraulic drive with volume regulation. TEKA. Commission of motorization and energetics in agriculture - 2012, Vol. 12, No.4, 268-273.
  • 22.Stoyanov A.F. 1999.: Operational evaluation of the main characteristics of the scenario of a fire in the premises. Fire safety. Scientific publication. Cherkasy: CHIPB Ministry of Ukraine, 111-113.
  • 23.Tishchenko E.A., Drobnich U.P., 2008.: Integral model mean bulk temperature in the room in the early stages of a fire. The problems of fire safety. H.: NUGZU, Vol. 25, 181-184.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-753bee5e-27e0-4381-aa01-af0aca7d4a18
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