带有竖井的输水隧道地震响应分析
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摘要
由于受应力集中及外形发生变化的影响,对于带有竖井的输水隧道,其在地震荷载作用下的应力、变形特性与一般输水隧道存在明显不同。采用基于势的流-固耦合运动方程建立了带有竖井的输水隧道有限元模型,考察其对于地震输入的响应。计算结果表明,由于应力集中,在竖井与隧道接头段,主应力最大;对于隧道段与竖井段,其主应力基本相同,但比不带竖井的隧道主应力要大;地震激励方向的位移最大值发生在隧道段。
As influence of stress concentration and shape change,the stress and deformation features of water conveyance tunnel with shaft under seismic load are distinct with the common water conveyance tunnel.The FEM model of water conveyance tunnel with shaft adopting potential-based fluid-solid coupling equation is established,with consideration of the response of seismic input.The results show that due to stress concentration at joint of shaft and tunnel,the largest principal stress appears;the principal stress at tunnel section is approximately equal to that of shaft section,which is higher than the tunnel without shaft;the largest displacement parallel to seismic excitation direction appears at tunnel section.
As influence of stress concentration and shape change,the stress and deformation features of water conveyance tunnel with shaft under seismic load are distinct with the common water conveyance tunnel.The FEM model of water conveyance tunnel with shaft adopting potential-based fluid-solid coupling equation is established,with consideration of the response of seismic input.The results show that due to stress concentration at joint of shaft and tunnel,the largest principal stress appears;the principal stress at tunnel section is approximately equal to that of shaft section,which is higher than the tunnel without shaft;the largest displacement parallel to seismic excitation direction appears at tunnel section.
引文
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[2]张廷芳.计算流体力学[M].大连:大连理工大学出版社,1992.
[3]高峰,关宝树.沉管隧道三维地震反应分析[J].兰州铁道学院学报:自然科学版,2003,22(1):6-10.
[4]陈韶章.沉管隧道设计与施工[M].北京:科学出版社,2002.
[5]陈健云,刘金云.地震作用下输水隧道的流-固耦合分析[J].岩土力学,2006,27(7):1077-1081.
[6]陈健云,刘金云.输水隧道流-固耦合地震反应研究[J].沈阳建筑大学学报:自然科学版,2006,22(2):242-247.
[7]刘金云,陈健云.输水隧道二维地震反应分析[J].哈尔滨工业大学学报,2008,40(8):1297-1301.
[8]刘金云,陈健云.势流体与N-S流体的应用及比较研究[J].人民长江,2009,40(20):27-31.
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