Local-Energy-Conservation-Based Decomposition Method for Wall Friction and Heat Flux

Symmetry Pub Date : 2024-09-04 DOI:10.3390/sym16091147
Mingzhi Tang, Wenfeng Zhou, Yanchao Hu, Gang Wang, Yanguang Yang
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Abstract

A novel decomposition method that adheres to both local time translation symmetry and spatial rotational symmetry is proposed in this study, thereby extending the limitations of existing methods, which are typically restricted to quasi-two-dimensional configurations. Grounded in the FIK and RD identities, this method provides a clear physical and reliable interpretation suitable for arbitrary-curvature profiles. Utilizing this method, an analysis of the aerothermodynamic characteristics of the bistable states of curved compression ramp flows was conducted. The results reveal that the generation of undisturbed and peak Cf is dominated by viscous dissipation. Specifically, flow separation happens when all of the energy input from the work exerted by the adverse pressure gradient (APG) is insufficient to be entirely converted into local viscous dissipation and kinetic energy. Furthermore, the propensity for flow separation at higher wall temperatures is firstly elucidated quantitatively from the perspective of the work by the APG. The peak heat flux is predominantly triggered by the work of viscous stress, with the secondary contribution from energy transport playing a more significant role in the generation of the peak heat flux of the separation state than that of the attachment state.
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基于局部能量守恒的墙面摩擦和热通量分解法
本研究提出了一种既遵守局部时间平移对称性又遵守空间旋转对称性的新型分解方法,从而扩展了现有方法的局限性,因为现有方法通常仅限于准二维配置。该方法以 FIK 和 RD 特性为基础,提供了适用于任意曲率剖面的清晰可靠的物理解释。利用这种方法,对弯曲压缩斜坡流双稳态的空气热力学特性进行了分析。结果表明,未扰动和峰值 Cf 的产生是由粘性耗散主导的。具体来说,当逆向压力梯度(APG)做功输入的所有能量不足以完全转化为局部粘性耗散和动能时,就会发生流动分离。此外,我们还首次从逆压力梯度做功的角度定量阐明了在较高壁温条件下发生流体分离的倾向。峰值热通量主要是由粘性应力做功引发的,在分离状态的峰值热通量产生过程中,能量传输的次要贡献比附着状态的贡献更为重要。
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