关键词: 高富水砂层, 降水动态优化, 固结变形, 流固耦合, 变形预测

Abstract: Aiming at the hydrogeology characteristics of high water-rich sand layer in Shenyang, making use of the analysis software of Comsol Multiphysics, and taking into account the linear elastic deformation nature of sandy soil, a three-dimensional seepage-stress coupled model was established on the basis of the Biot's consolidation theory. It describes the dynamic process of the ground deformation due to dewatering by multi-port pumping wells. The numbers, distance and pumping capacity of the wells are optimized by the inverse analysis of parameters through water fitting and displacement back analysis. Furthermore, the deformation of the building and underground pipes caused by the dewatering can be forecasted with the settlement, incline, curvature and horizontal displacement. It is shown that this model is stable and the water level can get dynamic equilibrium by pumping for 77 days. The ground deformation satisfies the requirement of the construction safety. It has good practical, economic and social benefits by the way of optimizing the distance, numbers and the pumping flow of the wells.