Radiating Gas Flow of a Large Optical Thickness along a Semi-Infinite Circular Pipe
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概要
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A theoretical study is made on a grey radiating gas flow along a semiinfinite circular pipe when the global optical thickness is large. The radiave heat transfer is assumed to be of the same order of magnitude as the convective one. Analyses are carried out up to the first two orders of expansion with respect to the inverse square root of the Bouguer number. The first order solution and the solution including the effect due to the radiation slip coincide with those of a flow those of a flow past a semi-infinite flat plate. For the flow outside the pipe, a correction is made on the solution taking into account the effect due to the wall curvature. In the flow inside the pipe, the effects due to the pressure change and the compressibility of the gas appear in addition to the effect due to the wall curvature.
- 社団法人日本物理学会の論文
- 1973-12-05
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