Please use this identifier to cite or link to this item: http://repositsc.nuczu.edu.ua/handle/123456789/21334
Title: DETERMINATION OF HEAT TRANSFER PROCESS IN VERTICAL CABLE TUNNELS OF NUCLEAR POWER PLANTS UNDER REAL FIRE CONDITIONS
Authors: Troshkin, Serhii
Kulitsa, Oleh
Pozdieiev, Serhii
Kostenko, Tetiana
Zemlianskyi, Oleh
Zaika, Nataliia
Keywords: fire temperature regime; full-scale fire tests; nuclear power plant; vertical cable tunnel
Issue Date: 2023
Publisher: Technology Center
Citation: Eastern-European Journal of Enterprise Technologies
Series/Report no.: Volume 5, Issue 10(125);
Abstract: The object of the study was heat and mass transfer processes occurring in vertical cable tunnels. The problem to be solved was the definition of process mechanisms in the inner space of the tunnel. For this, field tests were conducted, mathematical models were created, and computational experiments were conducted to establish specific parameters that affect the temperature regime of a fire in a vertical cable tunnel of a nuclear power plant. The dynamics of temperature changes with known geometric parameters and fire load were determined, and the adequacy of mathematical models built in the Fire Dynamics Simulator software was investigated and computational experiments were carried out. It has been proven that they consist in determining the temperature regime in a vertical cable tunnel of a nuclear power plant with known technical and geometric parameters. Such studies have practical applications in the field of safety of nuclear power plants and the development of new technologies in this field. An important conclusion of these studies is the possibility of determining the fire resistance of building structures of vertical cable tunnels of nuclear power plants with the selection of the most severe temperature regime, according to the conducted field test. This means that research results can be used in practice in designing and evaluating the safety of such objects. The conducted research established that the temperature in the inner space of the tunnel can reach values from 1200 to 1400 °C. The following factors influence the maximum temperature value and the maximum time to reach the maximum temperature in the fire cell: fire load, height and area of the tunnel. With a lower fire load, the maximum temperature in the vertical cable tunnel of the nuclear power plant was 75 % lower. Therefore, the results of these studies have a direct practical application in the field of safety of nuclear power plants and can be used to improve and develop new technologies in this field © 2023, Authors. This is an open access article under the Creative Commons CC BY license
URI: http://repositsc.nuczu.edu.ua/handle/123456789/21334
ISSN: 17293774
Appears in Collections:ЧІПБ ім. Героїв Чорнобиля

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