Effect of Condensation Heat Transfer Characteristics of Non-condensable Gas in Vertical Rectangular Channel

Huang Jiayu; Tao Leren; Hu Yongpan; Liu Qingqing; Ji Tianwei

doi:10.3969/j.issn.0253-4339.2019.04.083

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Effect of Condensation Heat Transfer Characteristics of Non-condensable Gas in Vertical Rectangular Channel

更新时间：2024-07-18

- Effect of Condensation Heat Transfer Characteristics of Non-condensable Gas in Vertical Rectangular Channel
- Journal of Refrigeration Vol. 40, Issue 4, (2019)
- 作者机构：
  
  上海理工大学能源与动力工程学院
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2019.04.083
  CLC：
- Published：2019
- 稿件说明：
移动端阅览
Huang Jiayu, Tao Leren, Hu Yongpan, et al. Effect of Condensation Heat Transfer Characteristics of Non-condensable Gas in Vertical Rectangular Channel[J]. Journal of refrigeration, 2019, 40(4).
DOI：

Huang Jiayu, Tao Leren, Hu Yongpan, et al. Effect of Condensation Heat Transfer Characteristics of Non-condensable Gas in Vertical Rectangular Channel[J]. Journal of refrigeration, 2019, 40(4). DOI： 10.3969/j.issn.0253-4339.2019.04.083.

摘要

本文以去离子水为工质，实验研究了竖直矩形窄通道内少量残余不凝性气体对蒸汽凝结换热特性的影响。采用热阻分离法得到凝结侧换热表面传热系数，并分析了不凝性气体的含量、冷却水质量流速、进口温度和热流密度对蒸汽凝结侧表面传热系数的影响。结果表明：当热流密度为1.668 kW/m2，即蒸气质量流速较小时，2%体积分数的不凝性气体使凝结侧表面传热系数下降33%，但当热流密度为3.887 kW/m2，蒸汽质量流速较大时，2%体积分数的不凝性气体只使凝结侧表面传热系数降低14%，此外，凝结换热表面传热系数随冷水质量流速和不凝性气体分数的增加而变小，随冷水进口温度和热流密度的增加而变大。

Abstract

The current experiment uses de-ionized water as a substance to investigate the influence of a small amount of residual non-condensable gas in a narrow rectangular vertical channel on the condensation heat transfer characteristics. The steam condensation surface heat transfer coefficient is obtained using the thermal resistance separation method

and the influence of non-condensable gas

cooling water mass flow rate

inlet temperature

and effective flux density on the steam condensation surface heat transfer coefficient is analyzed. The main results are as follows. When the heat flux density is 1.668 kW/m2

i.e.

the steam mass flow rate is small

a 2% volume of non-condensable gas reduces the condensation surface heat transfer by 33%. However

when the heat flux density is 3.887 kW/m2

i.e.

the steam mass flow rate becomes larger

a 2% volume of non-condensable gas only reduces the condensation surface heat transfer by 14%. In addition

the steam condensation surface heat transfer coefficient decreases as the volume percentage of the non-condensable gas increases. It also increases as the cooling water mass flow rate decreases and increases as the inlet temperature and effective flux density increase.

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