Influence of Train Speed on Thermal Insulation and Anti-Thawing Length for Tunnel in Cold Region

Authors

HUANG Huanan, Henan College of Industry & Information Technology , Jiaozuo , Henan 454000 , ChinaFollow
CHEN Yong, Hubei Road & Bridge Group Co ., Ltd., Wuhan , Hubei 430056 , China
WANG Yibo, China Southwest Architecture Design and Research Institute Co ., Ltd., Chengdu , Sichuan 610042 , China
WU Yaping, School of Civil Engineering , Lanzhou Jiaotong University , Lanzhou , Gansu 730070 , China

Abstract

To study the influence of train speed on thermal insulation and anti-thawing measures for surrounding rock of tunnels in cold regions,it is necessary to analyze the temperature field.By using the Kunlun Mountain Tunnel Project in cold regions as a case study,the effects of external atmospheric temperature,piston wind effects caused by varying train speeds,and the driving resistance on the distribution of the tunnel ’s internal temperature field were considered.A three-dimensional numerical calculation model including the surrounding rock,concrete lining,and tunnel air was established by utilizing the thermo-fluid-structure interaction (TFSI ) technique.The thermal environment variations caused by trains at different speeds were predicted.The result shows that during long-term train operation through the tunnel,both the piston wind speed and the pressure difference between the front and rear of the train increase as the train speed rises.This,along with increased driving resistance,significantly raises the surrounding rock temperature.Regardless of operational duration,the radial temperature impact depth of the surrounding rock decreases with greater tunnel depth,and axial temperature variations are reduced.For long-term train operation at speeds of 80 km/h and 160 km/h,it is recommended to set the thermal insulation and anti-thawing lengths at the two tunnel portals of the Kunlun Mountain Tunnel to 420 m and 790 m,respectively,so as to effectively prevent thaw settlement hazards in the surrounding rock of the Kunlun Mountain Tunnel.

Publication Date

2-22-2025

DOI

10.14048/j.issn.1671-2579.2025.01.024

First Page

196

Last Page

203

Submission Date

March 2025

Recommended Citation

Huanan, HUANG; Yong, CHEN; Yibo, WANG; and Yaping, WU (2025) "Influence of Train Speed on Thermal Insulation and Anti-Thawing Length for Tunnel in Cold Region," Journal of China & Foreign Highway: Vol. 45: Iss. 1, Article 24.
DOI: 10.14048/j.issn.1671-2579.2025.01.024
Available at: https://zwgl1980.csust.edu.cn/journal/vol45/iss1/24

Reference

[1]田四明,王伟，吕刚，等.寒区隧道洞内温度场分布规律及防寒设计探讨 [J].铁道标准设计,2022,66(12):84-90.TIAN Siming,WANG Wei,LYU Gang,et al.Research on distribution law of temperature field in tunnel in cold region and cold proof design [J].Railway Standard Design,2022,66(12):84-90.
[2]于建游,王志杰,蒋新政,等.传热系数及围岩条件对寒区隧道温度场影响 [J].铁道工程学报,2021,38(7):40-47.YU Jianyou,WANG Zhijie,JIANG Xinzheng,et al.Research on the influence of heat transfer coefficient and surrounding rock conditions on temperature field in cold region tunnel [J].Journal of Railway Engineering Society,2021,38(7):40-47.
[3]吴涛,刘志春,刘雪娇,等.寒区隧道保温层铺设方式与材料选型优化研究 [J].中外公路,2023,43(2):157-163.WU Tao,LIU Zhichun,LIU Xuejiao,et al.Optimization research of laying method and material type selection of thermal insulation layer for tunnels in cold region [J].Journal of China & Foreign Highway,2023,43(2):157-163.
[4]高焱,朱永全,耿纪莹,等.寒区隧道温度场分布规律及保温层适应性研究 [J].铁道标准设计,2017,61(10):105-111.GAO Yan,ZHU Yongquan,GENG Jiying,et al.Research on distribution law of temperature field of tunnel in cold region and thermal insulation layer adaptability [J].Railway Standard Design,2017,61(10):105-111.
[5]张瑶,夏才初,彭文波,等.高寒隧道围岩蓄热型防冻系统及其防冻效果影响因素分析 [J].中国公路学报,2024,37(10):151-161.ZHANG Yao,XIA Caichu,PENG Wenbo,et al.Thermal storage antifreeze system and its influencing factors analysis in high cold-region tunnel [J].China Journal of Highway and Transport,2024,37(10):151-161.
[6]潘文韬,吴枋胤,谢金池,等.高寒山区隧道温度场及冻害控制措施研究 [J].公路,2022,67(4):364-371.PAN Wentao,WU Fangyin,XIE Jinchi,et al.Research on temperature field and freezing damage control measures of tunnel in alpine mountain area [J].Highway,2022,67(4):364-371.
[7]TAYLOR G S,LUTHIN J N.A model for coupled heat and moisture transfer during soil freezing [J].Canadian Geotechnical Journal,1978,15(4):548-555.
[8]SONG J,LI Z Y,FAN Y Y.Suitability evaluation of tunnel engineering to protect ecological environment [J].Applied Mechanics and Materials,2013,316/317:335-339.
[9]李彬嘉,晏启祥,曾勤,等.冰‒水相变对寒区隧道动态温度场影响研究 [J].铁道标准设计,2017,61(10):90-94.LI Binjia,YAN Qixiang,ZENG Qin,et al.Study on the effect of water-ice phase change on temperature field of tunnel in cold region [J].Railway Standard Design,2017,61(10):90-94.
[10]王志杰,蔡李斌,李金宜,等.考虑相变和围岩含水裂隙的隧道冻胀力研究 [J].铁道工程学报,2020,37(3):53-60.WANG Zhijie,CAI Libin,LI Jinyi,et al.Research on the frost heaving force of tunnel considering phase change and water-bearing fracture of surrounding rock [J].Journal of Railway Engineering Society,2020,37(3):53-60.
[11]张玉伟,谢永利,李又云,等.基于温度场时空分布特征的寒区隧道冻胀模型 [J].岩土力学,2018,39(5):1625 -1632.ZHANG Yuwei,XIE Yongli,LI Youyun,et al.A frost heave model based on space-time distribution of temperature field in cold region tunnels [J].Rock and Soil Mechanics,2018,39(5):1625 -1632.
[12]ZHAN Y X,LU Z,YAO H L,et al.A coupled thermo-hydromechanical model of soil slope in seasonally frozen regions under freeze-thaw action [J].Advances in Civil Engineering,2018,2018 (1):1-10.
[13]杜耀辉,杨晓华,晏长根.季节性寒区隧道温度场数值分析[J].冰川冻土,2017,39(2):366-374.DU Yaohui,YANG Xiaohua,YAN Changgen.Numerical analysis of tunnel temperature field in seasonal frozen regions [J].Journal of Glaciology and Geocryology,2017,39(2):366-374.
[14]周家作,韦昌富,李东庆,等.正冻土水热迁移的移动泵模型[J].冰川冻土,2016,38(4):1083 -1089.ZHOU Jiazuo,WEI Changfu,LI Dongqing,et al.A moving-pump model for moisture and heat transfer during soil freezing [J].Journal of Glaciology and Geocryology,2016,38(4):1083 -1089.
[15]冉洪伍,范继辉,黄菁.冻融过程土壤水热力耦合作用及其模型研究进展 [J].草业科学,2019,36(4):991-999.RAN Hongwu,FAN Jihui,HUANG Jing.Review of the coupling of water and heat in the freeze-thaw process and its model of frozen soil [J].Pratacultural Science,2019,36(4):991-999.
[16]BEKELE Y W,KYOKAWA H,KVARVING A M,et al.Isogeometric analysis of THM coupled processes in ground freezing [J].Computers and Geotechnics,2017,88:129-145.
[17]LAI Y M,WANG Q S,NIU F J,et al.Three-dimensional nonlinear analysis for temperature characteristic of ventilated embankment in permafrost regions [J].Cold Regions Science and Technology,2004,38(2/3):165-184.
[18]黄加明,夏才初,白雪莹.冻融循环下隧道非冻土段底部融沉变形规律 [J].地下空间与工程学报,2021,17(2):453-460.HUANG Jiaming,XIA Caichu,BAI Xueying.Deformation rules of thaw settlement of non-frost section of tunnel under freezing-thawing cycle [J].Chinese Journal of Underground Space and Engineering,2021,17(2):453-460.
[19]吴占东.冻融环境浅埋砂质黄土隧道围岩变形规律研究[J].铁道工程学报,2021,38(1):55-59.WU Zhandong.Research on the surrounding rock deformation law of shallow buried sandy loess tunnel in freeze-thaw environment [J].Journal of Railway Engineering Society,2021,38(1):55-59.
[20]刘红岩,赵雨霞.冻融循环下隧道围岩冻胀力理论计算[J].中南大学学报 (自然科学版 ),2020,51(4):1049 -1058.LIU Hongyan,ZHAO Yuxia.Theoretical calculation of frost heaving pressure in tunnel surrounding rock during freeze-thaw cycles [J].Journal of Central South University (Science and Technology ),2020,51(4):1049 -1058.
[21]JAME Y W,NORUM D I.Heat and mass transfer in a freezing unsaturated porous medium [J].Water Resources Research,1980,16(4):811-819.
[22]夏才初,黄文丰,韩常领.冻融循环条件下寒区隧道衬砌的 服 役 性 能 [J].哈 尔 滨 工 程 大 学 学 报,2020,41(3):347-356.XIA Caichu,HUANG Wenfeng,HAN Changling.A study of the service performance of tunnel lining in the cold zone when subjected to the freeze-thaw cycle [J].Journal of Harbin Engineering University,2020,41(3):347-356.[23]白雪莹.寒区隧道地基冻融变形的多场耦合数值模拟计算及应用 [J].四川建材,2017,43(3):74-76.BAI Xueying.Numerical simulation method and its applicationg to foundation deformation of road tunnel due to freezing-thawing process in cold regions [J].Sichuan Building Materials,2017,43(3):74-76.
[24]吕康成,马超超,吉哲,等.寒冷地区隧道衬砌壁后冻融及其影响分析 [J].现代隧道技术,2012,49(5):29-33.LYU Kangcheng,MA Chaochao,JI Zhe,et al.An impact analysis of the freeze-thawing behind tunnel linings in cold regions [J].Modern Tunnelling Technology,2012,49(5):29-33.
[25]邓顺熙,刘人通.公路隧道空气质量模式及应用 [J].西安公路交通大学学报,2000,20(2):27-30.DENG Shunxi,LIU Rentong.Roadway tunnel air quality models and their applications [J].Journal of Xi ’an Highway University,2000,20(2):27-30.
[26]封晓黎,胡彦杰,宋晓,等.“双洞互补式 +静电除尘 ” 通风方式下公路隧道污染物浓度分布规律研究 [J].中外公路,2021,41(2):237-240.FENG Xiaoli,HU Yanjie,SONG Xiao,et al.Study on pollutant distribution law of combined ventilation of twin-tube complementary and electrostatic dust removal for highway tunnels in ventilation mode [J].Journal of China & Foreign Highway,2021,41(2):237-240.
[27]李刚.隧道纵向通风设计中应注意的一些问题 [J].公路,1999,44(3):49-51.LI Gang.Some problems that should be paid attention to in tunnel longitudinal ventilation design [J].Highway,1999,44(3):49-51.