Повышение достоверности расчетов при решении уравнений интегральной модели пожара

Authors

  • Evgeniy K. Makarov Institute of Mathematics of National academy of sciences of Belarus; pr. Nezavisimosti, Minsk, 220072, Belarus
  • Ivan I. Polevoda State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; ul. Mashinostroiteley, 25, Minsk, 220118, Belarus https://orcid.org/0000-0003-2469-3553
  • Aleksandr K. Demenchuk Institute of Mathematics of National academy of sciences of Belarus; pr. Nezavisimosti, Minsk, 220072, Belarus
  • Sergey G. Krasovskiy Institute of Mathematics of National academy of sciences of Belarus; pr. Nezavisimosti, Minsk, 220072, Belarus
  • Vladimir A. Osyaev State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; ul. Mashinostroiteley, 25, Minsk, 220118, Belarus https://orcid.org/0000-0002-5064-4205

Abstract

The methods for validity improvement of fire integral model based on the constitutive law in differential equations of equilibrium at fire are represented.

Author Biographies

Evgeniy K. Makarov, Institute of Mathematics of National academy of sciences of Belarus; pr. Nezavisimosti, Minsk, 220072, Belarus

Grand PhD in Physical and Mathematical Sciences, Professor

Ivan I. Polevoda, State Educational Establishment «Institute for Command Engineers» of the Ministry of Emergency Situations of the Republic of Belarus; ul. Mashinostroiteley, 25, Minsk, 220118, Belarus

PhD in Technical Sciences, Associate Professor

Aleksandr K. Demenchuk, Institute of Mathematics of National academy of sciences of Belarus; pr. Nezavisimosti, Minsk, 220072, Belarus

PhD in Physical and Mathematical Sciences, Associate Professor

Sergey G. Krasovskiy, Institute of Mathematics of National academy of sciences of Belarus; pr. Nezavisimosti, Minsk, 220072, Belarus

PhD in Physical and Mathematical Sciences, Associate Professor

References

Пожарная безопасность. Общие требования: ГОСТ 12.1.004-91. – Введ. 01.07.92. – М.: Комитет стандартизации и метрологии СССР, 1991. – 88 с.

Кошмаров, Ю.А. Прогнозирование опасных факторов пожара в помещении: учебное пособие. – М.: Академия ГПС МВД России, 2000. – 118 с.

Хайрер, Э. Решение обыкновенных дифференциальных уравнений. Жёсткие и дифференциально-алгебраические задачи / Э. Хайрер, Г. Ваннер. – М.: Мир, 1999. – 685 с.

Зельдович, Я.Б. Математическая теория горения и взрыва / Я.Б. Зельдович, Г.И. Баренблатт, В.Б. Либрович, Г.М. Махвиладзе. – М.: Наука, 1980. – 480 c.

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Published

2008-08-12

How to Cite

Makarov Е., Polevoda И., Demenchuk А., Krasovskiy С. and Osyaev В. (2008) “Повышение достоверности расчетов при решении уравнений интегральной модели пожара”, Vestnik of the Institute for Command Engineers of the MES of the Republic of Belarus, 8(2), pp. 73–75. Available at: https://journals.ucp.by/index.php/vice/article/view/298 (Accessed: 1 November 2024).

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