Analysis of Cooling Effect of Tunnel Surrounding Rock Construction Based on Spray Cooling

Authors

MENG Lingchen, Civil and Architectural Engineering Institute of CCCC-FHEB., Ltd., Beijing 100024, ChinaFollow

Abstract

To study the cooling effect of spray cooling on the surrounding rock during the construction of an extra-long tunnel, based on the Zhongliangshan Tunnel Project, numerical simulations were performed to analyze the characteristics of average temperature variation in the tunnel under different spray rates, the evaporation efficiency and temperature drop characteristics of spray under different humidity levels, and the average temperature variation characteristics of the tunnel section under different spray positions. The measured values of the air temperature in the tunnel section were compared with the simulated values. The results indicate that:① With the increase of the spray rate, the average temperature in the tunnel decreases gradually; when the spray rate is 0.038 kg/s, the temperature drops by 2.75 ℃ compared with the initial temperature of the tunnel; ② As air humidity increases, the droplet evaporation rate decreases gradually; when air humidity is 12 g/kg, the droplet evaporation rate is the highest compared to other humidity levels; ③ At the same distance from the tunnel face, when the air moisture content is 12 g/kg, the temperature drop after spraying is the largest compared with other moisture contents, with a maximum temperature drop of 7.06 ℃; ④ There is no significant difference between the average measured air temperature and the average simulated value, suggesting that the measured and simulated air temperatures are basically consistent. In actual tunnel spray cooling projects, the spray cooling system should be closely combined with the tunnel ventilation system. The position and air volume of the vents should be reasonably set to promote good air convection, while controlling the humidity in the tunnel to improve the cooling effect.

Publication Date

2-5-2026

DOI

10.14048/j.issn.1671-2579.2026.01.024

First Page

221

Last Page

228

Submission Date

February 2026

Recommended Citation

Lingchen, MENG (2026) "Analysis of Cooling Effect of Tunnel Surrounding Rock Construction Based on Spray Cooling," Journal of China & Foreign Highway: Vol. 46: Iss. 1, Article 24.
DOI: 10.14048/j.issn.1671-2579.2026.01.024
Available at: https://zwgl1980.csust.edu.cn/journal/vol46/iss1/24

Reference

[1]刘向阳,罗兵兵,吴静,等.高地温施工隧道冰块与通风组合降温效果对比研究 [J].隧道与地下工程灾害防治,2024,6(2):66-75.LIU Xiangyang,LUO Bingbing,WU Jing,et al.Comparative study on the cooling effect of ice block and ventilation combination in high ground temperature tunnel construction [J].Hazard Control in Tunnelling and Underground Engineering,2024,6(2):66-75.
[2]祁占锋.基于热源量化的高温隧道动态综合降温措施研究[J].地下空间与工程学报,2024,20(3):987-996,1015.QI Zhanfeng.Research on dynamic comprehensive cooling measures for high-temperature tunnels based on heat source quantification [J].Chinese Journal of Underground Space and Engineering,2024,20(3):987-996,1015.
[3]邹丽,王亮,丛北华.高压细水雾降温技术在长大隧道中的应用研究及系统设计 [J].暖通空调,2024,54(增刊 1):435-440.ZOU Li,WANG Liang,CONG Beihua.Application research and system design of high pressure water mist cooling technology in long tunnel [J].Heating Ventilating & Air Conditioning,2024,54(sup 1):435-440.
[4]张庆明,杨寿忠,向兵,等.不同通风方式对高地温施工隧道通风降温效果影响研究 [J].武汉理工大学学报 (信息与管理工程版 ),2024,46(2):210-215.ZHANG Qingming,YANG Shouzhong,XIANG Bing,et al.Study on the influence of different ventilation methods on the ventilation and cooling effect of high ground temperature construction tunnel [J].Journal of Wuhan University of Technology (Information & Management Engineering ),2024,46(2):210-215.
[5]覃宇含,孟祥林,苏留锋,等.吸收式制冷系统应用于高温热害隧道降温的理论分析研究 [J].隧道建设 (中英文 ),2023,43(11):1887 -1895.QIN Yuhan,MENG Xianglin,SU Liufeng,et al.Theoretical analysis of absorption refrigeration system for treating high temperature heat damage in tunnels [J].Tunnel Construction,2023,43(11):1887 -1895.
[6]姚庆,夏才初.考虑季节影响的地铁区间隧道围岩动态热交换研究 [J].施工技术 (中英文 ),2024,53(10):44-50.YAO Qing,XIA Caichu.Research on dynamic heat exchange in subway tunnel surrounding rock considering seasonal effects [J].Construction Technology,2024,53(10):44-50.
[7]姚曙光,夏才初.地铁隧道岩土体取热蓄冷系统的效果及参数分析 [J].施工技术 (中英文 ),2024,53(5):83-89.YAO Shuguang,XIA Caichu.Effectiveness and parameter analysis of heat extraction and cold storage system for rock and soil in subway tunnel [J].Construction Technology,2024,53(5):83-89.
[8]马超豪,梁艳,汪涛,等.基于高地温隧道热流耦合温度场的数值模拟研究 [J].北方交通,2023 (1):77-80.MA Chaohao,LIANG Yan,WANG Tao,et al.Research on numerical simulation of coupled temperature field based on heat flow of high geothermal tunnel [J].Northern Communications,2023 (1):77-80.
[9]乔红彦.高地温隧道超长独头施工降温及热环境特征研究[J].地下空间与工程学报,2023,19(2):632-639.QIAO Hongyan.Research on cooling and thermal environment of super-long single-headed tunnel construction with high ground temperature [J].Chinese Journal of Underground Space and Engineering,2023,19(2):632-639.
[10]谢高英.高地温隧道施工期冰块辅助降温效果研究 [J].地下空间与工程学报,2023,19(4):1329 -1338.XIE Gaoying.Research on cooling effect of ice cube assisted method in high ground temperature tunnel construction period [J].Chinese Journal of Underground Space and Engineering,2023,19(4):1329 -1338.
[11]方建平,张孟喜,姚潇南.基于双光栅传感器隧道混凝土温度应变发展特性研究 [J].中外公路,2024,44(4):217-224.FANG Jianping,ZHANG Mengxi,YAO Xiaonan.Temperature and strain development characteristics of tunnel concrete based on double grating sensors [J].Journal of China & Foreign Highway,2024,44(4):217-224.
[12]陈奇,赵祎琪,周云雷,等.地热区隧道施工热害分级防护方法研究 [J].地下空间与工程学报,2024,20(5):1717 -1729,1750.CHEN Qi,ZHAO Yiqi,ZHOU Yunlei,et al.Study on hierarchical prevention method of heat hazard in geothermal tunnel construction [J].Chinese Journal of Underground Space and Engineering,2024,20(5):1717 -1729,1750.
[13]岳昆,包小华,敖翔,等.隧道施工期间不同通风方式的对比研究 [J].中外公路,2024,44(5):218-224.YUE Kun,BAO Xiaohua,AO Xiang,et al.Comparative study of different ventilation methods during tunnel construction [J].Journal of China & Foreign Highway,2024,44(5):218-224.
[14]田宝华,张彪,刘延龙,等.考虑环境湿度条件下高地温隧道喷雾降温研究 [J].公路工程,2023,48(6):23-30,93.TIAN Baohua,ZHANG Biao,LIU Yanlong,et al.Research on spray cooling in high geothermal temperature tunnel considering ambient humidity [J].Highway Engineering,2023,48(6):23-30,93.
[15]陈兴,苏卫迪,蒋雅君,等.岩溶地区隧道衬砌施工缝渗漏水处治技术 [J].中外公路,2022,42(2):193-196.CHEN Xing,SU Weidi,JIANG Yajun,et al.Treatment technology of leaking of tunnel lining construction joints in Karst area [J].Journal of China & Foreign Highway,2022,42(2):193-196.
[16]李准.玉磨铁路高地温隧道降温技术及其经济研究 [J].铁道工程学报,2022,39(6):95-99.LI Zhun.Technical and economic research on the efficiency reduction and cooling measures in high geothermal tunnel in Yuxi ‒ Mohan railway [J].Journal of Railway Engineering Society,2022,39(6):95-99.
[17]王志杰,姜逸帆,林铭,等.高地温尼格隧道综合降温体系研究 [J].隧道建设 (中英文 ),2022,42(1):16-25.WANG Zhijie,JIANG Yifan,LIN Ming,et al.Comprehensive cooling system of nige tunnel with high ground temperature[J].Tunnel Construction,2022,42(1):16-25.
[18]刘庆平,冯炼.长大公路隧道喷雾降温可行性分析 [J].制冷与空调 (四川 ),2020,34(5):577-580.LIU Qingping,FENG Lian.Feasibility analysis of spray cooling for long highway tunnel [J].Refrigeration & Air Conditioning,2020,34(5):577-580.
[19]王林峰,钟宜宏,李鸣,等.高瓦斯隧道温湿度联合作用下瓦斯分布以及运动规律 [J].重庆交通大学学报 (自然科学版 ),2022,41(10):100-107.WANG Linfeng,ZHONG Yihong,LI Ming,et al.Gas distribution and movement rule under combined action of temperature and humidity in high gas tunnel [J].Journal of Chongqing Jiaotong University (Natural Science ),2022,41(10):100-107.
[20]肖益民,毛宏智,陈军,等.冷凝对隧道通风热压的影响分析[J].中国公路学报,2022,35(8):258-266.XIAO Yimin,MAO Hongzhi,CHEN Jun,et al.Thermal pressure analysis of the influence of condensation in tunnel ventilation [J].China Journal of Highway and Transport,2022,35(8):258-266.