Determining heat transfer correlations for transition and turbulent flow in ducts

Scientific Letters of Rzeszow University of Technology - Mechanics Pub Date : 1900-01-01 DOI:10.7862/RM.2014.12

D. Taler, J. Taler

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引用次数: 5

Abstract

The objective of the paper is to develop correlations for the Nusselt number Nu in terms of the friction factor ξ (Re) and also Reynolds number Re and Prandtl number Re, which is valid for transitional and fully developed turbulent flow. After solving the equations of conservation of momentum and the energy for turbulent flow in a circular tube subject to a uniform heat flux, the Nusselt number values were calculated for different values of Reynolds and Prandtl numbers. Then, the form of the correlation Nu = f (Re, Pr) was selected which approximates the results obtained in the following ranges of Reynolds and Prandtl numbers: 2300 ≤ Re ≤ 1000000, 0.1 ≤ Pr ≤ 1000. The form of the correlation was selected in such a way that for the Reynolds number equals to Re=2300, i.e. at the point of transition from laminar to transitional flow the Nusselt number should change continuously. Unknown coefficients x1, ..., xn appearing in the heat transfer correlation expressing the Nusselt number as a function of the Reynolds number and Prandtl number were determined by the method of least squares. To determine the values of the coefficients at which the sum of the difference squares is a minimum, the Levenberg-Marquardt method is used

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确定管道中过渡和湍流流动的传热相关性

本文的目的是建立努塞尔数Nu与摩擦因子ξ (Re)以及雷诺数Re和普朗特数Re之间的关系，这种关系适用于过渡和充分发展的湍流。在求解了均匀热流作用下圆管内湍流的动量守恒方程和能量守恒方程后，计算了不同雷诺数和普朗特数的努塞尔数值。然后，选取关联关系Nu = f (Re, Pr)的形式，近似于2300≤Re≤1000000,0.1≤Pr≤1000雷诺数和普朗特数范围内得到的结果。关联形式的选择使得雷诺数为Re=2300时，即从层流到过渡流的过渡点，努塞尔数连续变化。未知系数x1，…，用最小二乘法确定了以雷诺数和普朗特数为函数表示努塞尔数的传热关系式中的xn。为了确定差平方和为最小值的系数值，使用Levenberg-Marquardt方法

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Scientific Letters of Rzeszow University of Technology - Mechanics

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