CFD PREDICTION OF POOL FIRE BURNING RATES AND FLAME FEEDBACK

V. NOVOZHILOV; H. KOSEKI

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CFD PREDICTION OF POOL FIRE BURNING RATES AND FLAME FEEDBACK

机译：燃料燃烧率和火焰反馈的CFD预测

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A computational fluid dynamic model with full coupling between gaseous and liquid phases is developed to predict burning rates of small- to medium-size pool fires. Rates of fuel release are calculated using predictions of flame feedback to the surface of the pool. Favre-averaged Navier-Stokes equations are solved to describe flow in the gaseous phase. Hydrocarbon combustion is described using an eddy breakup model. The heat conduction equation in the region with a regressing surface is solved to model liquid vaporization. A pool fire is modeled as an unsteady process, from the time of ignition until convergence to a quasi-steady burning rate. Comparisons are made to a number of experiments reported in the literature and include burning rates for different fuels, as well as total and radiative flame feedback to the burning surface.

机译：建立了在气相和液相之间完全耦合的计算流体动力学模型，以预测中小型游泳池火灾的燃烧率。使用对池表面的火焰反馈预测来计算燃料释放速率。求解了均值的Navier-Stokes方程，以描述气相流动。使用涡流分解模型描述了碳氢化合物的燃烧。求解具有回归表面的区域中的热传导方程，以模拟液体汽化。从点火时间到收敛到准稳态燃烧速率，将池火建模为不稳定过程。与文献中报道的许多实验进行了比较，包括不同燃料的燃烧速率，以及对燃烧表面的总和辐射火焰反馈。

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来源
《Combustion Science and Technology》 |2004年第8期|p.1283-1307|共25页
作者
V. NOVOZHILOV; H. KOSEKI;
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作者单位

Institute of Fire Safety Engineering Research and Technology, Faculty of Engineering, University of Ulster, Newtownabbey, United Kingdom;

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原文格式 PDF
正文语种 eng
中图分类热力工程、热机;
关键词
computational fluid dynamics; pool fire; flame feedback;

机译：计算流体力学;池火;火焰反馈;

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1. Assessment of the effect of pool size on burning rates of multiple pool fires using CFD [J] . S. Vasanth, S. M. Tauseef, Tasneem Abbasi, Journal of loss prevention in the process industries . 2014,第Null期

机译：使用CFD评估池大小对多池火灾燃烧率的影响
2. Effects of pool size and spacing on burning rate and flame height of two square heptane pool fires [J] . Wan Huaxian, Gao Zihe, Ji Jie, Journal of Hazardous Materials . 2019,第MAYa5期

机译：池大小和间距对两个正方形庚烷池火的燃烧速率和火焰高度的影响
3. Multicomponent pool fires: Trends in burning rate, flame height, and flame temperature [J] . Yip Aaron, Haelssig Jan B., Pegg Michael J. Fuel . 2021,第Jana15期

机译：多组分池火灾：燃烧速率，火焰高度和火焰温度的趋势
4. CFD STUDY OF A FIRE WHIRL OF HUGE OIL TANK -BURNING RATE, FLAME LENGTH, DISTRIBUTIONS OF N-HEPTANE AND OXYGEN IN A FIRE WHIRL [C] . Koyu Satoh, Xiaodong Xie, Naian Liu, ASME International Mechanical Engineering Congress and Exposition . 2015

机译：CFD研究巨大的油箱燃烧率的火焰旋转，火焰长度，正庚烷和火氧气分布的旋转旋转
5. Effects of crossflow on burning rates of rectangular methanol pool fires. [D] . Woods, Joshua Anthony Robert. 2005

机译：错流对矩形甲醇池火燃烧速率的影响。
6. Correction: Are High-Severity Fires Burning at Much Higher Rates Recently than Historically in Dry-Forest Landscapes of the Western USA? [O] . William L. Baker 2010

机译：更正：在美国西部的干旱森林景观中，高烈度火灾的燃烧速度是否比历史上高得多？
7. Evaluation of CFD simulations of transient pool fire burning rates [O] . James R. Stewart, Herodotos N. Phylaktou, Gordon E. Andrews, 2021

机译：瞬态池火灾燃烧率的CFD模拟评价
8. Global Model for Predicting the Burning Rates of Liquid Pool Fires [R] . Hamins, A., Yang, J. C., Kashiwagi, T. 1999

机译：预测液体火灾燃烧率的全球模型

CFD PREDICTION OF POOL FIRE BURNING RATES AND FLAME FEEDBACK

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