Hydrodynamic Optimization of Coaxial Ground Heat Exchanger

IF 1.8 3区 工程技术 Q3 ENGINEERING, MECHANICAL
J. Wojtkowiak
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引用次数: 0

Abstract

A simple mathematical model of fluid flow is applied to determine the cross-sectional shape of a coaxial ground heat exchanger (CGHE) for which the friction pressure drop is minimal. Both laminar and turbulent flows of a Newtonian fluid are analyzed. The dimensionless form of the friction pressure losses is taken as the objective function, and the dimensionless internal diameter and wall thickness of the inner tube is adopted as decision variables, with the reference length taken to be the internal diameter of the external pipe. The resulting optimization problem is solved by means of a hybrid analytical-numerical method. The obtained solutions are generalized as two simple equations valid for laminar and turbulent flows, respectively. It is shown that the pressure losses in a coaxial ground heat exchanger with optimal cross section may be considerably smaller than the pressure losses for a nonoptimal one. The obtained results are significant for the global optimization of CGHEs, resulting in improved energy conservation of buildings and district heating systems.
同轴地热交换器的水动力优化
采用简单的流体流动数学模型,确定了摩擦压降最小的同轴地热交换器的截面形状。分析了牛顿流体的层流和紊流。以摩擦压力损失的无因次形式为目标函数,以内管的无因次内径和壁厚为决策变量,以外管的参考长度为内径。采用解析-数值混合方法对优化问题进行求解。得到的解被推广为两个简单的方程,分别适用于层流和湍流。计算结果表明,最优截面同轴地热交换器的压力损失比非最优截面的压力损失要小得多。所得结果对CGHEs的全局优化具有重要意义,从而提高建筑和区域供热系统的节能效果。
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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来源期刊
CiteScore
4.60
自引率
10.00%
发文量
165
审稿时长
5.0 months
期刊介绍: Multiphase flows; Pumps; Aerodynamics; Boundary layers; Bubbly flows; Cavitation; Compressible flows; Convective heat/mass transfer as it is affected by fluid flow; Duct and pipe flows; Free shear layers; Flows in biological systems; Fluid-structure interaction; Fluid transients and wave motion; Jets; Naval hydrodynamics; Sprays; Stability and transition; Turbulence wakes microfluidics and other fundamental/applied fluid mechanical phenomena and processes
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