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>Radiation-Driven Flame Spread Over Thermally-Thick Fuels in Quiescent Microgravity Environments
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Radiation-Driven Flame Spread Over Thermally-Thick Fuels in Quiescent Microgravity Environments
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机译:在静态微重力环境下,辐射驱动的火焰散布在较厚的燃料上
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摘要
Microgravity experiments on flame spread over thermally thick fuels were conducted using foam fuels to obtain low density and thermal conductivity, and thus large spread rate (Sf) compared to dense fuels such as PMMA. This scheme enabled meaningful results to lie obtained even in 2.2 second drop tower experiments. It was found that, in contrast conventional understanding; steady spread can occur over thick fuels in quiescent microgravity environments, especially when a radiatively active diluent gas such as CO2 is employed. This is proposed to be due to radiative transfer from the flame to the fuel surface. Additionally, the transition from thermally thick to thermally thin behavior with decreasing bed thickness is demonstrated.
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