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Opposed-Flow Flame Spread Across Propanol Pools: Effect of Liquid Fuel Depth

机译：相反的流动火焰蔓延到丙醇池：液体燃料深度的影响

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This computational study examines the effect of liquid fuel depth on flame spread across propanol pools with and without forced, opposed air flow. The initial pool temperature is below its closed- cup flash point temperature T(sub cc); so the liquid fuel must be heated sufficiently to create a combustible mixture of fuel vapor before ignition and flame spread can occur. Furthermore, in order for the flame to spread, an approximate rule is that the liquid fuel surface temperature ahead of the flame must be heated above T(sub cc) so that a flammable mixture just above the lean limit exists ahead of the flame. The depth of a liquid fuel pool would affect the heating of the liquid fuel pool and thus the liquid fuel surface temperature ahead of the flame. It has been observed experimentally and numerically that, at normal gravity without forced gas-phase flow and with the initial pool temperature T(sub 0) in a range well below T(sub cc), the flame periodically accelerates and decelerates (pulsates) as it propagates. The depth of a liquid fuel pool would change this range of T(sub 0) since it would affect the heating of the pool.

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作者
Kim, Inchul; Sirignano, William A.;
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年度 1999
页码 1-4
总页数 4
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Numerical analysis; Computation; Liquid fuels; Flame propagation; Flammability; Air flow; Vapor phases; Surface temperature; Ignition; Heating; Gravitation; Flash point; Flame temperature; Depth; Combustion;

机译：数值分析;计算;液体燃料;火焰传播;可燃性;气流;气相;表面温度;点火;加热;重力;闪点;火焰温度;深度;燃烧;

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3. A CORRELATION FOR AN EFFECTIVE FLOW VELOCITY FOR CAPTURING THE BOUNDARY LAYER EFFECT IN OPPOSED-FLOW FLAME SPREAD OVER THIN FUELS [J] . Subrata Bhattacharjee, Rohit Nagarkar, Yuji Nakamura Combustion Science and Technology . 2014,第7a9期

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4. Opposed-Flow Flame Spread Across n-Propanol Pools [C] . D.N.Schiller, W.A.Sirignano International symposium on combustion . 1996

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5. Forced opposed-flow flame spread over flat solid fuels in the thermal, near-quiescent and chemical kinetic regimes [D] . West, Jeffrey Samuel 1998

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Opposed-Flow Flame Spread Across Propanol Pools: Effect of Liquid Fuel Depth

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