为了研究地铁隧道联络通道防火门表面的活塞风压特征,基于OpenFOAM开源软件,建立了地铁隧道三维非稳态流动模拟模型,并使用动网格方法模拟了地铁列车在隧道内的实时运动。通过与既有试验数据的对比,发现该方法能够准确地模拟地铁隧道内的风环境。在此基础上,建立了完整的足尺地铁隧道-联络通道复合模型,分析了不同行车速度、不同联络通道设计和不同测点距离下防火门的表面风压及其周边的流动特征。计算结果表明,联络通道防火门的表面压力对行车速度最为敏感,对联络通道的几何形态不敏感,隧道-列车间的剪切流动对联络通道内部的流动特征影响较小。
Abstract
In order to study the characteristics of the piston wind pressure on the surface of the fireproof door in the subway tunnel, a three-dimensional unsteady flow simulation model of the subway tunnel was established based on the computational fluid dynamics software OpenFOAM, and real-time movement of the subway train in the tunnel was simulated using the dynamic mesh method. As compared to existing experimental data, this strategy can correctly reproduce the wind environment in the subway tunnel. Based on this, a full-scale subway tunnel-communication passage composite model was built, and the surface wind pressure of the fireproof door and the flow characteristics around the fireproof door were studied under different driving speeds, different connecting passage designs and different measuring point distances. The calculation results show that the surface pressure of the fireproof door of the connecting passage is the most sensitive to the vehicle speed, and is not sensitive to the geometry of the connecting passage. The shear flow between the tunnel and the train has little impact on the flow characteristics within the communication tunnel.
关键词
时变特性 /
区间联络通道 /
活塞风 /
动网格 /
表面风压
{{custom_keyword}} /
Key words
time variant characteristics /
connecting passages /
piston wind /
dynamic mesh /
surface wind pressure
{{custom_keyword}} /
{{custom_sec.title}}
{{custom_sec.title}}
{{custom_sec.content}}
参考文献
[1] 任明亮,陈超,郭强,等.地铁活塞风的分析计算与有效利用[J].上海交通大学学报,2008(8):1380.
REN Mingliang,CHEN Chao,GUO Qiang,et al.Numerical analysis and effectively using of piston-effect in subway[J].Journal of Shanghai Jiaotong University,2008(8):1380.(in Chinese)
[2] 田卫明,翁其能,张建伟,等.地铁隧道活塞风成风影响因子分析[J].重庆交通大学学报(自然科学版),2012,31(1):43.
TIAN Weiming,WENG Qineng,ZHANG Jianwei,et al.Analysis of piston wind impact factor in tunnel[J].Journal of Chongqing Jiaotong University(Natural Science),2012,31(1):43.(in Chinese)
[3] KIM J Y,KIM K Y.Experimental and numerical analyses of train-induced unsteady tunnel flow in subway[J].Tunnelling and Underground Space Technology,2007,22(2):166-172.
[4] 甘甜,王伟,赵耀华,等.地铁活塞风Fluent动网格模型的建立与验证[J].建筑科学,2011,27(8):76.
GAN Tian,WANG Wei,ZHAO Yaohua,et al.Establishment and validation of the subway piston wind model with dynamic mesh method[J].Building Science,2011,27(8):76.(in Chinese)
[5] 祝福,余志祥,曹瑞洲,等.地铁隧道附属广告设施的活塞风作用时变特性[J].西南交通大学学报,2018,53(5):1049.
ZHU Fu,YU Zhixiang,CAO Ruizhou,et al.Time variant characteristics of piston wind for billboards affiliated with subway tunnels[J].Journal of Southwest Jiaotong University,2018,53(5):1049.(in Chinese)
[6] 何磊,王正鸿,郭永桢,等.活塞风对地铁车站站台滑动门风压的影响[J].城市轨道交通研究,2020,23(3):56.
HE Lei,WANG Zhenghong,Guo Yongzhen,et al.Influence of piston wind on the air pressure of metro station platform sliding door[J].Urban Mass Transit,2020,23(3):56.(in Chinese)
[7] 中华人民共和国住房和城乡建设部,中华人民共和国国家质量监督检验检疫总局.地铁设计规范:GB 50157—2013[S].北京:中国建筑工业版社,2014.
Ministry of Housing and Urban-Rural Development of the People's Republic of China,General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China.Code for design of metro:GB 50157—2013[S].BeiJing:China Architecture & Building Press,2014.(in Chinese)
[8] 吕京滨. 对地铁隧道联络通道防火门变形脱落引发事故的思考[J].建筑科学,2013,29(3):89.
LÜ Jingbin.On the thinking of the accident fire door's drop in subway[J].Building Science,2013,29(3):89.(in Chinese)
[9] 王明昇. 地下区间联络通道防火门设计探讨[J].铁道工程学报,2013,30(4):119.
WANG Mingshen.Discussion on design of fire door of underground connection passage[J].Journal of Railway Engineering Society,2013,30(4):119.(in Chinese)
[10] 冯忠强. 地铁区间隧道防火门风压测试分析[J].中国科技纵横,2018(16):211.
FENG Zhongqiang.Wind pressure testing and analysis of fire doors in subway section tunnels[J].China Science & Technology Panorama Magazine,2018(16):211.(in Chinese)
[11] SHIH T H,LIOU W W,SHABBIR A,et al.A new K-epsilon eddy viscosity model for high reynolds number turbulent flows[J].Computers & Fluids,1995,24(3):227-238.
[12] JASAK H,JEMCOV A,TUKOVIC Z.OpenFOAM:A C++ library for complex physics simulations[C]// International workshop on coupled methods in numerical dynamics,2007,1000:1-20.
[13] 贾连志,汪侃.城市轨道交通的车辆选型和列车编组方案选择[J].城市轨道交通研究,2012,15(5):79.
JIA Liangzhi,WANG kan.WANG Mingshen.On the Selection of Subway Vehicles and Marshalling in Metro Construction[J].Urban Mass Transit,2012,15(5):79.(in Chinese)
{{custom_fnGroup.title_cn}}
脚注
{{custom_fn.content}}
基金
中铁第一勘察设计院集团有限公司企业课题(2021KY50YB)
{{custom_fund}}
PDF(2296 KB)
