Hydraulic characteristics of a siphon-shaped overflow tower in a long water conveyance system: CFD simulation and analysis

The siphon-shaped overflow tower is a new type of pressure-suppressing structure used in long water conveyance systems,and it plays a crucial role in guaranteeing the system's stability and safety during hydraulic transient processes.The flow in the tower is characteristic of weir flow in a closed d...

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Bibliographic Details
Published inJournal of hydrodynamics. Series B Vol. 28; no. 4; pp. 564 - 575
Main Author 余康 程永光 张晓曦
Format Journal Article
LanguageEnglish
Published Singapore Elsevier Ltd 01.08.2016
Springer Singapore
Subjects
air vent
CFD simulation
Engineering
Engineering Fluid Dynamics
flow pattern
Hydrology/Water Resources
Numerical and Computational Physics
pressure pulsation
Simulation
siphon-shaped overflow tower
气液两相流
水力特性
水力过渡过程
溢流量
虹吸式
计算流体力学模拟
输水系统
CFD simulation
air vent
pressure pulsation
siphon-shaped overflow tower
flow pattern
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Summary:The siphon-shaped overflow tower is a new type of pressure-suppressing structure used in long water conveyance systems,and it plays a crucial role in guaranteeing the system's stability and safety during hydraulic transient processes.The flow in the tower is characteristic of weir flow in a closed duct,and is thus a complex air-water two-phase flow.Intensive studies of the flow patterns,the pressure pulsations,and the discharge capacity are necessary for better understanding of the flow processes and for the purpose of design.In this paper,we simulate the flow in a siphon-shaped overflow tower under both steady and unsteady flow conditions.Through a steady-flow field simulation,the relationship between the overflow discharge and the pressure in the connected pipeline is analyzed and an empirical formula for evaluating the discharge capacity is provided.Through a transient-flow field simulation,the negative-pressure distributions on the weir crest,the pressure pulsations on the crest and in the falling pond,and the transformation of the air-water two-phase flow in the downstream outlet pipe are analyzed.Moreover,the major influencing factors of the flow patterns,especially,the sectional area of the air vents,are clarified.It is indicated that the siphon-shaped overflow tower can regulate the pressure surge during hydraulic transients and guarantee the safety and stability of the pipeline system,if the shape and the vents are properly designed.
Bibliography:31-1563/T
Kang YU 1,2, Yong-guang CHENG 1, Xiao-xi ZHANG 1 (1. State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, Wuhan 430072, China; 2. State Key Laboratory of Hydroscience and Engineering, Tsinghua University, Beijing 100084, China)
tower shaped downstream pipeline hydraulic falling crest unsteady outlet guarantee
The siphon-shaped overflow tower is a new type of pressure-suppressing structure used in long water conveyance systems,and it plays a crucial role in guaranteeing the system's stability and safety during hydraulic transient processes.The flow in the tower is characteristic of weir flow in a closed duct,and is thus a complex air-water two-phase flow.Intensive studies of the flow patterns,the pressure pulsations,and the discharge capacity are necessary for better understanding of the flow processes and for the purpose of design.In this paper,we simulate the flow in a siphon-shaped overflow tower under both steady and unsteady flow conditions.Through a steady-flow field simulation,the relationship between the overflow discharge and the pressure in the connected pipeline is analyzed and an empirical formula for evaluating the discharge capacity is provided.Through a transient-flow field simulation,the negative-pressure distributions on the weir crest,the pressure pulsations on the crest and in the falling pond,and the transformation of the air-water two-phase flow in the downstream outlet pipe are analyzed.Moreover,the major influencing factors of the flow patterns,especially,the sectional area of the air vents,are clarified.It is indicated that the siphon-shaped overflow tower can regulate the pressure surge during hydraulic transients and guarantee the safety and stability of the pipeline system,if the shape and the vents are properly designed.
ISSN:1001-6058
1878-0342
DOI:10.1016/S1001-6058(16)60660-1