基于动态气囊边界改进的空气阀模型OA
An improved air valve model based on dynamic air-pocket boundaries
针对传统空气阀模型通常将气囊固定在空气阀节点处,忽略进排气过程中气囊体积变化引起的边界移动,进而导致邻近节点压力计算偏差的问题,提出了一种改进的空气阀模型——蔓延空气阀模型.该模型根据气囊体积变化实时更新气囊边界位置,使水气交界面的运动更符合真实物理过程,并通过耦合气体状态方程与流体控制方程,实现气囊压力、体积与质量的动态同步求解.某压力输水管道工程实例验证结果表明,蔓延空气阀模型能够有效模拟管道水力过渡过程,合理预测水柱分离及水锤压力变化,显著提升了管道系统水锤防护设计的准确性与可靠性.
Conventional air valve models usually fix the air pocket at the air valve node and neglect boundary movement caused by pocket volume variation during air intake and discharge,which may lead to pressure calculation errors at adjacent nodes.To overcome this limitation,an improved air valve model,namely the spreading air valve model,is proposed.This model updates the air-pocket boundary position in real time according to the variation in air-pocket volume,so that the motion of the water-air interface is more consistent with the actual physical process.By coupling the gas state equation with the fluid governing equations,the dynamic and simultaneous solution of air-pocket pressure,volume and mass is realized.Validation results from a pressurized water pipeline project show that the spreading air valve model can effectively simulate the hydraulic transient process,reasonably predict water column separation and water hammer pressure variation,and significantly improve the accuracy and reliability of water hammer protection design for pipeline systems.
赵莉;杨晓春;颜建国;申虎贲
西安航空学院能源与建筑学院安徽省水利水电勘测设计研究总院股份有限公司西安理工大学西北旱区生态水利国家重点实验室西安航空学院能源与建筑学院
空气阀模型气囊边界水柱分离水力过渡过程
air valve modelair pocket boundarywater column separationhydraulic transient process
《水利水电科技进展》 2026 (2)
84-90,7
国家自然科学基金面上项目(52579076)陕西省自然科学基础研究计划项目(2022JM-211)西安市科技局高校院所人才服务企业项目(23GXFW0039)陕西省创新能力支撑计划项目(2024RS-CXTD-31)陕西省技术创新引导计划项目(2024QCY-KXJ-050)
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