Heat Transfer Performance of Capillary Heat Exchangers in Circular Tunnel Lining during Intermittent Operation

Jiao Jiachen; Ji Yongming; Zhang Fengjun; Ji Chengfan; Yin Zhenfeng; Hu Songtao

doi:10.3969/j.issn.0253-4339.2024.02.053

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Heat Transfer Performance of Capillary Heat Exchangers in Circular Tunnel Lining during Intermittent Operation

更新时间：2024-07-18

- Heat Transfer Performance of Capillary Heat Exchangers in Circular Tunnel Lining during Intermittent Operation
- Journal of Refrigeration Vol. 45, Issue 2, (2024)
- 作者机构：
  
  1. 青岛理工大学环境与市政工程学院
  2. 青岛地铁集团有限公司
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2024.02.053
  CLC：
- Published：2024
- 稿件说明：
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Jiao Jiachen, Ji Yongming, Zhang Fengjun, et al. Heat Transfer Performance of Capillary Heat Exchangers in Circular Tunnel Lining during Intermittent Operation[J]. Journal of refrigeration, 2024, 45(2).
DOI：

Jiao Jiachen, Ji Yongming, Zhang Fengjun, et al. Heat Transfer Performance of Capillary Heat Exchangers in Circular Tunnel Lining during Intermittent Operation[J]. Journal of refrigeration, 2024, 45(2). DOI： 10.3969/j.issn.0253-4339.2024.02.053.

摘要

隧道地源热泵是解决地铁隧道热污染的有效技术之一，毛细管换热器（CHE）因具有抗腐蚀、易弯曲、换热性能好、节省空间等优点被广泛应用于隧道地源热泵系统的前端换热器。基于示范工程建立了CHE流-热耦合传热模型，并在TRNSYS平台搭建CHE仿真系统，对隧道衬砌内CHE在连续、间歇运行下的传热性能进行分析。结果显示，当运行时间比由1/3逐渐增至1时，制冷季和采暖季第7日的CHE日均热流密度分别由100.59、87.42 W/m2降至78.14、68.62 W/m2，相应的围岩内表面温度分别随之增大和减小，表明间歇运行能显著提高换热器的传热性能，并有助于缓解隧道围岩冷热堆积问题。

Abstract

Tunnel ground-source heat pumps are effective in solving the thermal pollution problem in subway tunnels. A capillary-tube heat exchanger (CHE) is used as the front-end heat exchanger of the tunnel ground-source heat pump system because of its corrosion resistance

easy bending

good heat transfer performance

and compactness. In this study

a CHE fluid-thermal coupling heat transfer model is established based on a demonstration project

and a CHE simulation system is built on the TRNSYS platform to analyze the heat transfer performance of the CHE in tunnel linings under continuous and intermittent operation. When the run-time ratio increases from 1/3 to 1

the average daily heat flux of CHE in the cooling and heating seasons decreases from 100.59 W/m2 and 87.42 W/m2 to 78.14 W/m2 and 68.62 W/m2 after 7 days

respectively

whereas the inner surface temperature of the surrounding rock increases and decreases in the cooling and heating seasons

respectively. The results show that intermittent operation can significantly improve the heat transfer performance of the heat exchanger and help alleviate the problem of cold and heat accumulation in the rock surrounding the tunnel.

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