一次表面整体回热器传热和流动性能数值研究新方法  

A novel numerical simulation approach on the heat transfer and flow performance of the integral primary surface recuperators

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作  者:王巍[1] 刘艳艳[1] 

机构地区:[1]大连理工大学能源与动力学院,辽宁大连116024

出  处:《燃气轮机技术》2008年第4期32-35,共4页Gas Turbine Technology

摘  要:本文建立了一种带壁厚多层全通道新模型,用于流动交错角θ为0°和60°的一次表面回热器(PSR),在相同传热量的情况下进行传热和流动的数值分析和比较。结果发现在保持相同壁面温度条件下,流动交错角为60°和0°模型沿程的压降△P,阻力系数f,以及对流换热系数h的相应比值基本保持不变。以此比值作为修正系数,在θ=0°全通道经验计算结果的基础上,对交错角为60°的PSR进行整体的传热和流动性能预测分析。The multi- layer models , which were established and validated, are used here to study the heat transfer performance of the primary surface recuperators with different included angle between corrugation θ. The simulations results of θ = 0°PSR are compared with the results of θ = 60°PSR under the same heat transfer quantity. It shows that, under the same temperature of the wall surface of the 60°and 0°models, the corresponding ratios of the pressure drop △P, friction factor f, and the convection heat transfer coefficient h remain basically unchanged. Therefore, a research of the ratio being considered as the correction coefficient is conducted in this paper. Then the Whole performance of the heat transfer and flow of θ = 60°PSR can be predicted and analyzed by modifying those data reached from θ = 0° PSR's empirical calculated values.

关 键 词:一次表面回热器 多层全通道模型 数值模拟 整体性能预测 

分 类 号:TK172[动力工程及工程热物理—热能工程]

 

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