NUMERICAL ALGORITHM CONJUGATING STEADY AND TRANSIENT, SEPARATED, COMPRESSIBLE FLOW AND A SOLID BODY HAVING ARBITRARILY DISTRIBUTED HEAT SOURCES
作者:
David Degani,
期刊:
Numerical Heat Transfer
(Taylor Available online 1984)
卷期:
Volume 7,
issue 4
页码: 395-411
ISSN:0149-5720
年代: 1984
DOI:10.1080/01495728408961832
出版商: Taylor & Francis Group
数据来源: Taylor
摘要:
A numerical algorithm that is second-order accurate in time has been developed for the conjugated problem of a separated, compressible flow field and a conductive solid body. The full two-dimensional time-dependent Navier-Stokes equations are coupled with the time-dependent energy equation for the solid body and are solved simultaneously. using implicit algorithms. The energy equation for the solid body may include arbitrarily distributed heat sources. The algorithm has been examined for the case of two-dimensional supersonic compression-corner interaction, with a heat source embedded in the wall in the vicinity of the separation bubble and the attached boundary layer. The effect of the heat source on the flow field is studied for steady and transient cases.
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