浮力对立式双管换热器性能的影响

IF 1.3 Q3 THERMODYNAMICS
I. Voicu, N. Galanis, T. Maré
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引用次数: 1

摘要

考虑壁面传导、粘性耗散、变流体性质和流体的轴向扩散等因素,对平行流垂直双管换热器中两种流体之间的换热进行CFD模拟,说明浮力对速度和温度分布以及努塞尔数和摩擦系数的影响。结果表明,流动方向不同,在不同位置会发生回流。在发展区,两种流体的体积温度、壁面温度和局部努塞尔数都依赖于流动方向。在所考虑的条件下,管内充分流动的努塞尔数介于恒热流密度和恒温条件下对应的强制对流值之间,而环空的努塞尔数小于这两种强制对流值。由于分离两种流体的固体壁面的热状况取决于内管内Richardson数等流动特性,因此不能通过单独研究来准确预测内筒和环空的流动和热场。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of buoyancy on the performance of a vertical double-pipe heat exchanger
CFD simulations of heat transfer between two fluids in a parallel-flow vertical double-pipe heat exchanger, taking into consideration conduction in the walls, viscous dissipation, variable fluid properties, and axial diffusion in the fluids, illustrate the effects of buoyancy on the velocity and temperature profiles as well as on the Nusselt numbers and friction coefficients. In particular, the results show that flow reversal occurs at different positions depending on the flow direction. In the developing region, the fluid bulk temperatures, the wall temperature, and the local Nusselt numbers for both fluids depend on the flow direction. For the conditions under consideration, the Nusselt number for the fully developed flow in the inner pipe lies between the corresponding forced convection values for the constant heat flux and constant temperature conditions, while the one in the annulus is smaller than both these forced convection values. It is established that the flow and thermal fields in the inner cylinder and the annulus cannot be predicted correctly by studying each one separately since the thermal condition at the solid wall separating the two fluids depends on flow characteristics such as the Richardson number in the inner tube.
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来源期刊
CiteScore
2.70
自引率
6.70%
发文量
36
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