RANS Model development on temperature variance in conjugate heat transfer

IF 1.5 4区 工程技术 Q3 MECHANICS Journal of Turbulence Pub Date : 2020-12-02 DOI:10.1080/14685248.2020.1860214
Gao Yang, H. Iacovides, T. Craft, D. Apsley
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引用次数: 1

Abstract

In this study, a RANS model of turbulent conjugate heat transfer has been developed, which is applicable across a range of different combination of fluid and solid thermal properties. This is achieved by focusing on the transport equations for the temperature variance and its dissipation rate across the solid walls which bound the flow region. In this investigation we make use of a wider range of DNS data reported by other researchers, to advance our understanding of the processes involved and to revise and extend the capabilities of the model of Craft et al [12] including a more physical fluid-solid interface condition on the dissipation of thermal fluctuations and a dependence of model coefficients on Prandtl number. The resulting model is shown to successfully reproduce the penetration of thermal fluctuations into solid regions, and their subsequent decay across the solid, for a wide range of fluid to solid thermal property ratios, and Prandtl numbers, thereby bringing a step change to RANS capabilities in turbulent conjugate heat transfer analysis.
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共轭传热中温度变化的RANS模型的发展
本研究建立了紊流共轭传热的RANS模型,该模型适用于一系列不同的流体和固体热性质组合。这是通过关注温度方差的输运方程及其在束缚流动区域的固体壁上的耗散率来实现的。在本研究中,我们利用其他研究人员报告的更广泛的DNS数据,以提高我们对所涉及过程的理解,并修改和扩展Craft等人的模型的能力[0],包括更物理的流固界面条件,热波动的耗散和模型系数对普朗特数的依赖。结果表明,该模型成功地再现了热波动对固体区域的渗透,以及它们随后在固体中的衰减,适用于大范围的流体与固体热性能比和普朗特尔数,从而使RANS在湍流共轭传热分析中的能力发生了阶跃变化。
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来源期刊
Journal of Turbulence
Journal of Turbulence 物理-力学
CiteScore
3.90
自引率
5.30%
发文量
23
审稿时长
6-12 weeks
期刊介绍: Turbulence is a physical phenomenon occurring in most fluid flows, and is a major research topic at the cutting edge of science and technology. Journal of Turbulence ( JoT) is a digital forum for disseminating new theoretical, numerical and experimental knowledge aimed at understanding, predicting and controlling fluid turbulence. JoT provides a common venue for communicating advances of fundamental and applied character across the many disciplines in which turbulence plays a vital role. Examples include turbulence arising in engineering fluid dynamics (aerodynamics and hydrodynamics, particulate and multi-phase flows, acoustics, hydraulics, combustion, aeroelasticity, transitional flows, turbo-machinery, heat transfer), geophysical fluid dynamics (environmental flows, oceanography, meteorology), in physics (magnetohydrodynamics and fusion, astrophysics, cryogenic and quantum fluids), and mathematics (turbulence from PDE’s, model systems). The multimedia capabilities offered by this electronic journal (including free colour images and video movies), provide a unique opportunity for disseminating turbulence research in visually impressive ways.
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