气流湍流度对不同截面通道内换热强度的影响

L. Osipov, L. Plotnikov
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引用次数: 0

摘要

动力机器和装置的有效运行在很大程度上取决于燃气-空气系统中流动湍流度的初始设定值。因此,流动湍流的程度影响了边界层的形成和通道内传热的质量。本研究的主要目的是研究湍流尺度对不同截面通道中固定气流换热强度的影响。基于计算流体力学方法对静止流动的气体动力学和传热进行了数值模拟。本文给出了不同气体流型下不同剖面通道内流动湍流度对换热影响的评价数据。研究发现,湍流尺度对异形通道换热系数变化的影响不显著。结果表明,与圆形通道相比,使用方形通道可使传热系数平均降低4%。相反,使用三角形截面的通道,传热系数增加在10%以内。对于所有考虑的通道剖面,沿通道长度(下游)的传热系数平均抑制26%。所获得的数据计划用于预测各种用途的热机气体交换系统中的热物理过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of the Turbulence Scale of Gas Flows on the Heat Exchange Intensity in Channels with Different Cross Sections
The efficient operation of power machines and installations is largely determined by the initially set value of flow turbulence in gas-air systems. Consequently, the level of flow turbulence affects the formation of the boundary layer and the quality of heat transfer in the channels. The main goal of this study was to examine the effect of the turbulence scale on the heat transfer intensity from stationary gas flows in channels of different cross-sections. The research was carried out using numerical modeling of gas dynamics and heat transfer of stationary flows based on the Computational Fluid Dynamics method. Data on the assessment of the effect of flow turbulence scale on heat transfer in channels of different profiles for different gas flow regimes are presented in the paper. It was found that the turbulence scale has an insignificant effect on the change in the heat transfer coefficient in profiled channels. It is shown that the use of a square-shaped channel leads to a decrease in the heat transfer coefficient by an average of 4% in comparison with a circular channel. Conversely, the use of a channel with a triangular cross section causes an increase in the heat transfer coefficient within 10%. The suppression of the heat transfer coefficient along the channel length (downstream) by an average of 26% for all the considered channel profiles is demonstrated. The obtained data are planned to be used to predict thermophysical processes in gas exchange systems of heat engines for various purposes.
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