Database of hazardous substances properties

• Autorzy: Lyfar V.

Warianty tytułu

RU

Baza dannykh opasnykh svoistv beshhestv

• Języki publikacji: EN

Abstrakty

EN

The paper presents the structure of the database and methods for determining the necessary parameters of the properties of substances used for modeling the consequences of accidents at high-risk enterprises. The formulas for the approximation functions of thermophysical parameters and methods for obtaining the coefficients for them, as well as the formulas and methods for obtaining the coefficients for the specific characteristics of the dangers of flammable, toxic substances.

RU

В статье предлагается структура базы данных и методы определения необходимых параметров свойств веществ, используемых для моделирования последствий аварий на предприятиях повышенной опасности. Предложены формулы для аппроксимации функций теплофизических параметров и методы получения коэффициентов для них, а также формулы и методы получения коэффициентов для специфических характеристик опасности горючих, токсичных веществ.

Słowa kluczowe

EN

database; hazardous substance; dangerous material; toxic substance; toxic pollutant; fire; poisoning; thermal parameter; high risk; thermophysical property; mathematical modelling

• Wydawca: -
• Czasopismo: Teka Komisji Motoryzacji i Energetyki Rolnictwa
• Rocznik: 2012
• Tom: 12
• Numer: 3
• Opis fizyczny: p.94-99,fig.,ref.

Twórcy

autor

Lyfar V.

• Technological Institute, East Ukrainian National University named after Volodymyr Dahl, Lugansk, Ukraine

Bibliografia

• 1. Granovsky E.A., Lyfar V.A. 2001.: Simulation of Industrial Accidents. The consequences and risks / / Fire Safety.– № 1(28) – C. 14–16.
• 2. Granovsky E.A., Lyfar V.A., Vasilyuk E.V. 1999.: Industrial accident modeling: consequences and risk // Prevention of Hazardous Fires and Explosions. – Kluwer Academic Publishers (Netherlands). – P.183– 197.
• 3. Granovsky E.A., Lyfar V.A. 2005.: The software package for modeling and risk assessment of accidents, "RizEks-2" // Thematic Workshop "Assessing the risk of accidents at hazardous production facilities." – М.: FGUP "NTC Security Industry". – P. 45–47.
• 4. Lyfar V.A. 2008.: Simulation of complex manufacturing processes // Journal of East-Ukrainian National University of Vladimir Dal. № 12 (130), Part 1, Luganskс. 31-37.
• 5. Shore J. BA, Kuzmin, FI 1968.: Tables for the analysis and control reliability. M.: Publishing House of the "Soviet Radio", 288 p.
• 6. Fitting of Parameters for Pure Component Properties. Equations. PCPEquationFit. 2009.: DDBST GmbH, № 65., p. 17.
• 7. Aspen Physical Property System. Physical Property Models. Version Number: V7.1 January 2009 Copyright (c) 1981-2009 by Aspen Technology, Inc. All rights reserved.
• 8. Handbook of Aqueous Electrolyte Thermodynamics: Theory & Application. 1986.: Joseph F. Zemaitis, Jr., Diane M. Clark, Marshall Rafal, Noel C. Scrivner ISBN: 978-0-8169-0350-4. Hardcover. 878 pages.
• 9. Results from the Design Institute for Physical Property Data. John R. Cunningham. 1990.: American Institute of Chemical Engineers – p. 154
• 10. Gude M.T.; Teja A.S. 1994.: The Critical Properties of Several n-Alkanals, Tetralin and NMP, Experimental Results for DIPPR DIPPR Data Series No. 2, p.174-83.
• 11. Dyakonov V.P. and other. 1996.: The Revolutionary Guide to QBASIC. UK.:Wrox Press.- 578 s.+disk.
• 12. Dyakonov V.P. 2004.: Encyclopedia Mathcad 2001i, 11. Library professionals. In M. Solon-Press. - 832 p.
• 13. Gander B., Grzhebichek I. 2005.: "Solving problems in scientific computing using Maple and MATLAB." M: Vassamedina -520 p.
• 14. Poblete B.R., Lees F.P. and Simpson G. B. 1984.: The assessment of major hazards: estimation of injury and damage around a hazard source using an impact model based on inverse square law and probit relations. - Journal of Hazardous Materials, No. 9, pp. 355-371.
• 15. Baker W., Cox P. 1986.: and others blasting phenomenon. Evaluation and implications. Volume 2. Ed. Zel'dovich, Boris E. Gelfand. – M.: World, - 384 p., Ill.
• 16. Kashtanov V.A., 2002.: Reliability Theory of Complex Systems (Theory and Practice) / V. Chestnuts, A. Medvedev. – M.: Europe. Center for Quality - 469.
• 17. CPR 16E. Methods for the determination of possible dameg to people and objects resulting from releases of hazardouse materials/Committee for the Prevention of Disasters caused by dangerous substances. TNO. Green book
• 18. Mastryukov B.S. 2004.: Safety in emergencies. Prediction and assessment of emergency situations / B.S. Mastryukov, T.I. Ovchinnikov. - M.: Education – 101 p.
• 19. Albert J.H., and Chib S. 1993.: "Bayesian Analysis of Binary and Polychotomous Response Data." Journal of the American Statistical Association (88)422: pp. 669-679.
• 20. http://www.hse.gov.uk/hid/haztox.htm , 2012.: (Assessment of the Dangerous Toxic Load (DTL) for Specified Level of Toxicity (SLOT) and Significant Likelihood of Death (SLOD))
• 21. Wawrzosek J. and Piekarski W., 2002.: The toxicity level of exhaust gases in tractor engines fed with biofuels. Teka, Commission of Motorization and Power Industry in Agriculture, Polish Academy of Sciences, Branch in Lublin, 2, 164-172.
• 22. Zielinska E., Leja K. 2010.: Ecological problems of transport vehicles. TEKA, Commission of Motorization and Power Industry in Agriculture, Volume X, Lublin 2010.