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王 鸿, 贡 力, 王忠慧, 杜强业, 张秉宗.基于不同碰撞模型的流冰—输水隧洞碰撞动态响应研究水资源与水工程学报[J].,2021,32(1):164-171
基于不同碰撞模型的流冰—输水隧洞碰撞动态响应研究
Dynamic response of drift ice-water tunnel collision based on different collision models
  
DOI:10.11705/j.issn.1672-643X.2021.01.24
中文关键词:  水介质  流冰  输水隧洞  碰撞动态响应  附加质量法  流固耦合法
英文关键词:water medium  drift ice  water tunnel  dynamic response of collision  additional mass method  fluid-structure coupling method
基金项目:国家自然科学基金项目(51969011、51669010)
作者单位
王 鸿1,2, 贡 力1,2, 王忠慧1, 杜强业1, 张秉宗1 (1.兰州交通大学 土木工程学院 甘肃 兰州 730070 2.兰州交通大学 调水工程及输水安全研究所 甘肃 兰州 730070) 
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中文摘要:
      位于西北寒区的输水隧洞在流冰期输水时会受到流冰不同程度的撞击作用。由于流冰与隧洞衬砌撞击时水介质会对其撞击结果产生一定的扰动性,因此,为了研究水介质对于中小型流冰撞击结果的影响作用,以引大入秦工程盘道岭37#隧洞为研究对象,分别建立基于附加质量法以及流固耦合法的流冰-输水隧洞碰撞模型,结合有限元软件LS-DYNA,对流冰撞击输水隧洞衬砌的动态响应进行研究。研究表明:由于水介质的作用,两种碰撞模型中隧洞衬砌高应力区存在着一定的差异性;在模拟流冰撞击输水隧洞时,附加质量模型的计算结果普遍偏大,但其具有建模简单且计算时间较短的优点;流固耦合模型由于将碰撞过程中动水作用以及流冰与输水隧洞逼近时产生的“水垫效应”考虑在内,使其能够更真实地模拟流冰与输水隧洞的真实碰撞状况。
英文摘要:
      Water conveyance tunnels located in the northwest cold region are impacted by the drift ice to different degrees during the drift ice period; however, the water in the tunnel as a medium has an inhibitory effect on the collisions between the drift ice and the tunnel lining. Therefore, in order to study this effect of small and medium drift ice, we chose No.37 Pandaoling Tunnel of the Datong River to Qinwangchuan Region Water Transfer Project as the research subject. Drift ice-water conveyance tunnel collision models based on the additional mass method and fluid-structure coupling algorithm were established to study the dynamic response of the water conveyance tunnel lining to the collisions caused by drift ice, combined with the finite element software LS-DYNA. The research show that the high stress zones of the tunnel lining in two collision models are different to some extent due to the action of water medium. When using the additional mass model to simulate the impact of drift ice on the water tunnel, the calculation results are generally larger, but it has the advantages of simple modeling and short analysis time. As for the fluid-structure coupling model, which takes into account the dynamic water action in the collision process and the “water cushion effect” generated when the ice approaches the water tunnel, it can better simulate the actual collision scenarios between the drift ice and the water tunnel.
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