Optimal cooling of an internally heated disc

Philosophical Transactions of the Royal Society A Pub Date : 2021-10-25 DOI:10.1098/rsta.2021.0040

Ian Tobasco

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引用次数: 10

Abstract

Motivated by the search for sharp bounds on turbulent heat transfer as well as the design of optimal heat exchangers, we consider incompressible flows that most efficiently cool an internally heated disc. Heat enters via a distributed source, is passively advected and diffused, and exits through the boundary at a fixed temperature. We seek an advecting flow to optimize this exchange. Previous work on energy-constrained cooling with a constant source has conjectured that global optimizers should resemble convection rolls; we prove one-sided bounds on energy-constrained cooling corresponding to, but not resolving, this conjecture. In the case of an enstrophy constraint, our results are more complete: we construct a family of self-similar, tree-like ‘branching flows’ whose cooling we prove is within a logarithm of globally optimal. These results hold for general space- and time-dependent source–sink distributions that add more heat than they remove. Our main technical tool is a non-local Dirichlet-like variational principle for bounding solutions of the inhomogeneous advection–diffusion equation with a divergence-free velocity. This article is part of the theme issue ‘Mathematical problems in physical fluid dynamics (part 1)’.

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内部加热盘的最佳冷却

在寻找湍流传热的尖锐界限以及设计最佳热交换器的激励下，我们考虑了最有效地冷却内部加热盘的不可压缩流。热量通过分布源进入，被动平流和扩散，并在固定温度下通过边界排出。我们寻求一种平流来优化这种交换。先前对恒定源的能量约束冷却的研究推测，全局优化器应该类似于对流卷;我们证明了能量约束冷却的单侧边界对应于这个猜想，但没有解决这个猜想。在熵约束的情况下，我们的结果更完整:我们构建了一个自相似的树状“分支流”家族，我们证明其冷却在全局最优的对数范围内。这些结果适用于一般的空间和时间相关的源-汇分布，这些分布增加的热量多于它们去除的热量。我们的主要技术工具是无散度速度的非齐次平流扩散方程边界解的非局部类狄利克雷变分原理。本文是主题问题“物理流体动力学中的数学问题(第一部分)”的一部分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Philosophical Transactions of the Royal Society A

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