注浆影响下隧道渗流场及最小覆土厚度修正研究OA
Correction of tunnel seepage field and the minimum overburden thickness under the influence of grouting
隧道最小覆土厚度是水下隧道施工中的关键参数.为了计算考虑注浆影响的隧道最小覆土厚度,基于镜像法和渗流力学理论,推导了水下隧道渗流场在注浆影响下的解析解,并结合日本最小渗流法对隧道最小覆土厚度的计算进行修正.通过公式退化和室内相似模拟试验,验证了理论解析解的正确性.基于此解,探讨了注浆相对渗透系数、注浆范围、水深等参数对解的影响.研究表明:在不同埋深比条件下,衬砌外水压力随水深增加呈线性增长;埋深比越小,水深变化对衬砌外水压力的敏感性越高;提高注浆圈的抗渗性比单纯增大其注浆范围更能有效降低隧道渗流量,特别是在 1~3 m注浆范围内控制效果尤为显著;未实施注浆时,隧道覆土厚度对水深变化更为敏感,提升注浆材料抗渗性可有效减少水深的影响;对于高风险隧道,建议采用高抗渗性注浆材料,注浆厚度可扩展至 5 m以上.而常规工程中,1~3 m的注浆范围为优选,以实现安全性与成本的平衡.
The minimum tunnel overburden thickness is a critical parameter in underwater tunnel construction.To calculate the minimum tunnel overburden thickness considering the influence of grouting,an analytical solution for the seepage field of an underwater tunnel influenced by grouting is derived using the mirror method and seepage mechanics theory.The solution is refined using the Japanese minimum seepage method.The accuracy of the theoretical solution is verified through formula simplification and laboratory simulation tests.Using this solution,this paper investigates the influence of parameters including the relative permeability coefficient of grouting,grouting range,and water depth.The findings show that,at different depth ratios,water pressure outside the tunnel lining increases linearly with head height.A lower depth ratio increases the sensitivity of external water pressure to water depth variations.Improving the permeability of the grouting ring reduces tunnel seepage more effectively than enlarging the grouting range,especially within a range of 1 m to 3 m,where the effect is most pronounced.In the absence of grouting,the tunnel overburden thickness is highly sensitive to changes in water depth,and enhancing the permeability of the grouting material can significantly mitigate the impact of water depth.For high-risk tunnels,high-permeability grouting materials with a thickness exceeding 5 m are recommended.In conventional projects,a grouting range of 1–3 m provides an optimal balance between safety and cost.
贾宝新;袁庆雷
辽宁工程技术大学 土木工程学院,辽宁 阜新 123000辽宁工程技术大学 土木工程学院,辽宁 阜新 123000
建筑与水利
隧道工程渗流场覆土厚度注浆圈室内模型试验
tunnelingseepage fieldoverburden thicknessgrouting ringindoor model tests
《岩土力学》 2026 (1)
255-266,12
辽宁工程技术大学学科创新团队资助项目(No.LNTU20TD08). This work was supported by the Project of Innovation Team of Liaoning Technical University(LNTU20TD08).
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