A numerical study on flow and convective heat transfer of aviation kerosene in a vertical mini-tube at supercritical pressures

IF 1.3 Q3 THERMODYNAMICS
B. Sundén, Dan Huang, Zan Wu
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引用次数: 1

Abstract

Convective heat transfer of aviation kerosene at supercritical pressures in a vertical upward tube with inner diameter 1.8 mm was numerically studied using RNG k-? turbulence model with enhanced wall treatment. The thermo-physical and transport properties of the aviation kerosene at various temperatures were obtained by a 10-species surrogate and the NIST Supertrapp software. The grid independence was first studied and numerical results were then compared with experimental data for validation. Effects of mass flow rate, heat flux, pressure and inlet temperature on the heat transfer performance were investigated. Under flow conditions given in this work, the results show that the heat transfer coefficient increases with mass flow rate, heat flux or inlet temperature, while increase in inlet pressure reduces heat transfer coefficient. The buoyancy force has little effect on heat transfer. (Less)
超临界压力下航空煤油在垂直微管中的流动和对流换热数值研究
采用RNG k-?对航空煤油在超临界压力下在内径1.8 mm垂直向上管内的对流换热进行了数值研究。增强壁面处理的湍流模型。通过10种替代品和NIST Supertrapp软件获得了航空煤油在不同温度下的热物理和输运性质。首先对网格独立性进行了研究,然后将数值结果与实验数据进行了对比验证。研究了质量流量、热流密度、压力和进口温度对换热性能的影响。在给定的流动条件下,换热系数随质量流量、热流密度和进口温度的增加而增大,进口压力的增加使换热系数减小。浮力对传热影响不大。(少)
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
2.70
自引率
6.70%
发文量
36
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