Condensation of Vapor in the Presence of Non-Condensable Gas on a Vertical Tube

World Academy of Science, Engineering and Technology, International Journal of Nuclear and Quantum Engineering Pub Date : 2017-05-28 DOI:10.20944/PREPRINTS201805.0098.V1

Sheng-jun Zhang, Xu Cheng, F. Shen

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引用次数: 1

Abstract

According to the operation conditions of time unlimited passive containment heat removal system(TUPAC), a separate effect experiment facility was established to investigate the heat transfer performance of steam condensation in presence of non-condensable gas. The effect of wall subcooling temperature, total pressure and mass fraction of the air on heat transfer process was analyzed. The heat transfer model was also developed. The results showed that the heat transfer coefficient decreased with the rising of subcooling temperature, the decreasing of the total pressure and air mass fraction. It was revealed that Dehbi’s correlation predicted the heat transfer coefficient conservatively, especially in the low pressure and low temperature region. The novel correlation was fitted by the data obtained in the following range: 0.20~0.45 MPa in pressure, 20% ~ 80% in mass fraction, 15°C ~ 45°C in temperature. The discrepancy of the correlation and experiment data was with ±20%.

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垂直管内有不可冷凝气体时蒸汽的冷凝

根据无时间限制被动容器排热系统(TUPAC)的运行条件，建立了独立效应实验装置，研究了不凝性气体存在时蒸汽冷凝的换热性能。分析了壁面过冷温度、总压力和空气质量分数对传热过程的影响。建立了传热模型。结果表明:传热系数随过冷温度的升高、总压和空气质量分数的减小而减小;结果表明，Dehbi相关性对换热系数的预测较为保守，特别是在低压低温区域。在压力0.20~0.45 MPa，质量分数20% ~ 80%，温度15℃~ 45℃范围内得到的数据拟合出了新的相关性。相关性与实验数据的差异为±20%。

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

World Academy of Science, Engineering and Technology, International Journal of Nuclear and Quantum Engineering

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