The Reynolds analogy and a new formulation of the temperature-defect law for a turbulent boundary layer on a plate
- 作者: Vigdorovich I.I.1
-
隶属关系:
- Research Institute of Mechanics
- 期: 卷 61, 编号 2 (2016)
- 页面: 64-69
- 栏目: Mechanics
- URL: https://journals.rcsi.science/1028-3358/article/view/190504
- DOI: https://doi.org/10.1134/S1028335815120125
- ID: 190504
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详细
A rational asymptotic theory describing the dynamic and thermal turbulent boundary layer on a plate at zero pressure gradient is proposed. The fact that the flow depends on a finite number of governing parameters makes it possible to formulate algebraic closure conditions, which relate the turbulent shear stress and heat flux to mean velocity and temperature gradients. As a result of an exact asymptotic solution of the boundary-layer equations, the known laws of the wall for the velocity and temperature and the velocity and temperature defect laws as well as the expression for the skin-friction coefficient, the Stanton number, and the Reynolds-analogy factor are obtained. The latter implies two new formulations of the temperature-defect law, one of which is completely similar to the velocity-defect law and does not contain the Stanton number and the turbulent Prandtl number, and the other does not contain the skin-friction coefficient. A heat-transfer law that relates only thermal quantities is also obtained. The conclusions of the theory agree well with experimental data.
作者简介
I. Vigdorovich
Research Institute of Mechanics
编辑信件的主要联系方式.
Email: vigdorovich@imec.msu.ru
俄罗斯联邦, Moscow, 117192
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