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基于生死单元动态演化的混凝土坝温度场等几何仿真方法

李明超李昂张梦溪王亦欣何殷鹏

水利学报2026，Vol.57Issue(2)：194-206,13.

水利学报2026，Vol.57Issue(2)：194-206,13.DOI:10.3724/j.slxb.20250561

基于生死单元动态演化的混凝土坝温度场等几何仿真方法

An isogeometric simulation method for the temperature field of concrete dams based on dynamic evolution of birth-death elements

李明超 ¹李昂 ²张梦溪 ¹王亦欣 ²何殷鹏²

作者信息

1. 水利工程智能建设与运维全国重点实验室,天津大学,天津 300350||新疆工业学院水利水电学院,新疆和田 848000
2. 水利工程智能建设与运维全国重点实验室,天津大学,天津 300350
折叠

摘要

Abstract

High-precision numerical simulation of temperature fields is crucial for the design and operation of con-crete dams under severe conditions.However,in finite element analysis(FEA),the discretized mesh model often deviates from the true geometric model,especially for structures with complex boundaries,where polygonal meshes approximate smooth geometries imperfectly.Currently,there is a lack of effective methods to quantify such model errors,making it difficult to guarantee the accuracy of numerical results based on error-affected models.To investi-gate how model errors influence the accuracy of temperature field calculations,a new metric—Discrete Geometry Fidelity Error(DGFE)—was proposed to quantitatively characterize the discrepancy between the geometric model and the mesh model.By comparing the DGFE of isogeometric analysis(IGA)and FEA,it was demonstrated that IGA can achieve higher geometric accuracy and numerical precision.For high-fidelity simulation of temperature fields in concrete dams,a heat conduction analysis method based on IGA was developed and applied to typical structures such as penstocks behind dams and cooling water pipes.The results show that this method offers both high solution accu-racy and computational efficiency.Considering the layered construction process of concrete dams,the birth-death element technique was integrated with IGA to simulate the dynamic evolution of the temperature field during actual dam construction.Temperature analysis at two typical monitoring points revealed close agreement between simulation results and field measurements,with relative errors of only 3.8%and 2.8%,respectively.This confirms the effective-ness of IGA for dynamic thermal simulation in concrete dams,providing a geometrically precise and high-accuracy numerical approach for temperature field analysis of such complex structures.

关键词

混凝土坝/温度场/离散几何保真度误差/等几何分析/生死单元

Key words

concrete dam/temperature field/discrete geometric fidelity error/isogeometric analysis/birth-death elements

分类

建筑与水利

引用本文复制引用

李明超,李昂,张梦溪,王亦欣,何殷鹏..基于生死单元动态演化的混凝土坝温度场等几何仿真方法[J].水利学报,2026,57(2):194-206,13.

基金项目

国家自然科学基金项目(52309166,524B2134) （52309166,524B2134）

天津市青年科技人才项目(QN20230328) （QN20230328）

水利学报

ISSN：0559-9350

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