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寒区高速铁路冻土路基的水热耦合响应特性分析

陈佩佩尚智王熳祺祁凌豪杨光昌吴楠

水文地质工程地质2025，Vol.52Issue(3)：153-162,10.

水文地质工程地质2025，Vol.52Issue(3)：153-162,10.DOI:10.16030/j.cnki.issn.1000-3665.202404048

寒区高速铁路冻土路基的水热耦合响应特性分析

Analysis of hydrothermal coupling response characteristics of frozen soil subgrade of high-speed railway in cold region

陈佩佩 ¹尚智 ²王熳祺 ²祁凌豪 ²杨光昌 ³吴楠⁴

作者信息

1. 北京建筑大学理学院,北京 100044
2. 北京建筑大学土木与交通工程学院,北京 100044
3. 北京科技大学土木工程系,北京 100083
4. 苏州城市学院智能制造与智慧交通学院,江苏苏州 215104
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摘要

Abstract

Coupled heat and water transfer in frozen soil presents certain challenges for numerical computation due to the strong coupling nature of its control equations,thereby affecting their application in engineering practice.Based on the principles of energy conservation,mass conservation,and the soil freezing curve,a theoretical model for the coupled heat and water transfer in frozen soil,considering phase change effects,was proposed.Subsequently,decoupled control equations were derived through mathematical deduction to optimize numerical solutions.Numerical modeling of the coupled water and heat transfer process in frozen soil was implemented through secondary development on the COMSOL platform.The measured data from the subgrade of the Lanxin Passenger Dedicated Line were used for numerical validation,and numerical analysis was conducted under fitted surface boundary conditions.The analysis indicates the numerical solutions of temperature and moisture content at different depth exhibit good agreement with the measured values,thereby validating the reliability of the decoupled theoretical model for coupled heat and water transfer in frozen soil.The soil layer has a"peak damping"effect on the amplitude of periodic variations in temperature and moisture content,and the sine wave curves of temperature and moisture content at different depth present certain phase lag phenomena.Among these,temperature amplitude attenuation and phase lag are caused by energy dissipation in the heat conduction process,while similar phenomena in moisture content curves may be due to phase changes between ice and water altering soil permeability.The temperature contour lines near the surface are denser,while those in the deeper soil layers are sparser.The surface layer of the roadbed is more susceptible to external temperature fluctuations.During summer,the temperature gradually decreases from top to bottom,whereas in winter,the temperature gradually increases from top to bottom.The moisture content in the subgrade section increases with depth,reaching a peak near the interface between the cemented coarse-grained soil material and the fill material,highlighting the influence of material interfaces on moisture migration,and then gradually decreases with increasing depth.The research findings provide technical support for the construction of engineering projects such as roadbeds in cold regions.

关键词

寒区路基/水热耦合理论/解耦计算/数值分析

Key words

cold-region subgrade/hydrothermal coupling theory/decoupling calculation/numerical analysis

分类

交通工程

引用本文复制引用

陈佩佩,尚智,王熳祺,祁凌豪,杨光昌,吴楠..寒区高速铁路冻土路基的水热耦合响应特性分析[J].水文地质工程地质,2025,52(3):153-162,10.

基金项目

国家自然科学基金项目(51808026) （51808026）

水文地质工程地质

OA北大核心

ISSN：1000-3665

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