输水管道水锤-泄漏耦合数值模拟及反射系数特性研究OA
Numerical simulation of water hammer and leak coupling in water pipelines and study on reflection coefficient characteristics
针对长距离供水工程输水管道泄漏识别与定位难题,设计搭建了水锤-泄漏试验系统,构建了考虑动态摩阻和黏弹性效应的水锤-泄漏耦合数学模型以实现瞬态压力精确模拟,提出了泄漏反射系数和透射系数解析模型用于探究二者的影响参数,并通过试验系统验证了模型的准确性.试验与模型模拟分析结果表明:泄漏位置与压降峰值发生时间呈正相关关系;泄漏孔数量增加,压降呈"阶梯"状递增且瞬态压力衰减速率加快;动态摩阻引发的水锤波能量耗散导致反射系数较无摩阻工况降低;黏弹性管道的实际波速小于理论计算值,使得反射系数的计算结果偏大.
To address the challenge of leak detection and localization in water pipelines for long-distance water supply projects,a test system for water hammer and leak was designed and constructed.Moreover,a numerical model of water hammer and leak coupling considering dynamic friction and viscoelastic effects was established to achieve accurate transient pressure simulation.An analytical model for leak reflection and transmission coefficients was proposed to investigate the influencing parameters of these coefficients,and an experimental system was designed to verify the model's accuracy.The results of experiments and model analyses indicate that the leak location is positively correlated with the occurrence time of the pressure drop peak;as the number of leak holes increases,the pressure drop shows a"stepwise"increase,and the transient pressure attenuation rate accelerates;the energy dissipation of water hammer waves caused by dynamic friction reduces the reflection coefficient compared to the frictionless condition;the actual wave velocity of viscoelastic pipelines is lower than the theoretical calculation value,leading to an overestimation of the reflection coefficient.
周领;王鹤鸣;徐彬;李赟杰;潘天文
河海大学水利水电学院河海大学水利水电学院宁波市水务环境集团股份有限公司工程建设管理分公司河海大学水利水电学院水资源工程与调度全国重点实验室
输水管道泄漏瞬态流水锤动态摩阻黏弹性管道泄漏反射系数
water pipeline leaktransient flowwater hammerdynamic frictionviscoelastic pipelineleak reflection coefficient
《河海大学学报(自然科学版)》 2026 (1)
43-52,10
宁波市重大专项"科创甬江2035"关键技术项目(2024Z285)青海省2025年中央引导地方科技发展资金专项(2025ZY040)国家自然科学基金项目(52209084)
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