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- Title
Partitioned analysis of soil‐structure interaction for Nuclear Island Buildings.
- Authors
Chen, Shaolin; Lv, Hao; Zhou, Guoliang
- Abstract
The present methods for three‐dimensional time‐domain soil‐structure interaction (SSI) analysis are often uneconomical because they are performed with a single time integration scheme and a single time step, which prohibits their application to large‐scale SSI problems. In this study, a partitioned analysis of SSI (PASSI) is proposed for enhancing SSI computational efficiency. This is accomplished by partitioning the soil‐foundation‐structure system into the soil (foundation) and structure subsystems and implementing the continuity conditions of the displacements and reaction forces at the soil (foundation)‐structure interface in a primal way. A lumped‐mass explicit finite element method and a transmitting artificial boundary are used to model the unbounded soil, the structure is analyzed via the implicit finite element method, and the response of the rigid foundation is calculated through an explicit time integration scheme. The solution is separately advanced over time for each subsystem. Different time steps can be chosen for the explicit and implicit integration schemes, which can greatly improve efficiency. Interaction effects are accounted for by the transmission and synchronization of the coupled state variables. In addition, intrafield and interfield parallel procedures for PASSI are developed, and their theoretical efficiencies are analyzed. A simple example is provided to verify the performance of the partitioned approach with an explicit‐implicit co‐computation and to compare it to the fully explicit approach. Finally, the seismic response analysis of a nuclear power plant is presented to validate the feasibility and efficiency of the intrafield and interfield parallel procedures.
- Subjects
SOIL-structure interaction; TIME integration scheme; FINITE element method; SOIL structure; SEISMIC response; NUCLEAR power plants
- Publication
Earthquake Engineering & Structural Dynamics, 2022, Vol 51, Issue 10, p2220
- ISSN
0098-8847
- Publication type
Article
- DOI
10.1002/eqe.3661