首页|Numerical Simulation Study on Optimization of Freezing Pipe Position under Seepage Conditions Based on Simulated Annealing Algorithm
Numerical Simulation Study on Optimization of Freezing Pipe Position under Seepage Conditions Based on Simulated Annealing Algorithm
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NETL
NSTL
Korean Society Of Civil Engineers-Ksce
Artificial Ground Freezing (AGF) is a promising method for controlling seepage in permeable strata. However, AGF faces challenges, including difficulties in achieving a frozen barrier in high-flow conditions and concerns about cost-effectiveness. This study optimizes freezing pipe placement in AGF using a simulated annealing algorithm and a coupled hydrothermal finite element model, focusing on AGF system responses under varying seepage velocities. The optimized layout significantly reduces freeze-ring formation time (by 2.5 days) and the overall freezing duration (by 12.5 days). Moreover, it substantially decreases the required frozen soil volume, facilitating drilling and excavation. Across different seepage velocities, the difference in freeze-ring formation time between the optimized and uniform layouts gradually increases with higher seepage velocity, reaching a maximum difference of 5.9 days. Finally, the relationship between freezing time and seepage velocity was quantitatively described using exponential functions. This study underscores the critical role of optimizing freezing pipe placement in AGF, providing a foundation for efficient and cost-effective geotechnical engineering practices.
Hydrothermal couplingArtificial ground freezingPlacement of freezing pipesOptimization algorithmSeepage
Renjie Song
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School of Civil Engineering, Central South University, Changsha 410075, China
NETL
NSTL
Korean Society Of Civil Engineers-Ksce
