IMECH-IR  > 力学所知识产出(1956-2008)
Numerical Study of Heat Transfer Mechanism in Turbulent Supercritical CO2 Channel Flow
Li XL(李新亮); Hashimoto K; Tominaga Y; Tanahashi M; Miyauchi T; Li XL
Source PublicationJournal Of Thermal Science And Technology
2008
Pages112-123
Conference Name7th ASME/JSME Thermal Engineering Conference/Summer Heat Transfer Conference
Conference DateJUL 08-12, 2007
Conference PlaceVancouver, CANADA
AbstractDirect numerical simulation (DNS) of supercritical CO2 turbulent channel flow has been performed to investigate the heat transfer mechanism of supercritical fluid. In the present DNS, full compressible Navier-Stokes equations and Peng-Robison state equation are solved. Due to effects of the mean density variation in the wall normal direction, mean velocity in the cooling region becomes high compared with that in the heating region. The mean width between high-and low-speed streaks near the wall decreases in the cooling region, which means that turbulence in the cooling region is enhanced and lots of fine scale eddies are created due to the local high Reynolds number effects. From the turbulent kinetic energy budget, it is found that compressibility effects related with pressure fluctuation and dilatation of velocity fluctuation can be ignored even for supercritical condition. However, the effect of density fluctuation on turbulent kinetic energy cannot be ignored. In the cooling region, low kinematic viscosity and high thermal conductivity in the low speed streaks modify fine scale structure and turbulent transport of temperature, which results in high Nusselt number in the cooling condition of the supercritical CO2.
KeywordTurbulent Heat Transfer Supercritical Flow Direct Numerical Simulation Turbulent Channel Flow Simulation Equation State
WOS IDWOS:000264829800013
Indexed ByCPCI-S
Language英语
Citation statistics
Cited Times:11[WOS]   [WOS Record]     [Related Records in WOS]
Document Type会议论文
Identifierhttp://dspace.imech.ac.cn/handle/311007/25364
Collection力学所知识产出(1956-2008)
Corresponding AuthorLi XL
Recommended Citation
GB/T 7714
Li XL,Hashimoto K,Tominaga Y,et al. Numerical Study of Heat Transfer Mechanism in Turbulent Supercritical CO2 Channel Flow[C]Journal Of Thermal Science And Technology,2008:112-123.
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