Pipeline leakage characteristic Godunov simulation method based on Brunone dynamic friction resistance

A technology of pipeline leakage and simulation method, applied in the field of pipeline detection in hydropower stations, can solve problems such as numerical dissipation, difficult second-order accuracy of dynamic friction model, etc.

Active Publication Date: 2020-06-26
HOHAI UNIV
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Problems solved by technology

[0004] Aiming at the problems of numerical dissipation, robustness and stability, and dynamic friction caused by the Courant number less than 1 in the actual pipeline detection during the hydraulic transient numerical simulation of pipeline leakage, the present invention proposes a The Godunov simulation method of pipeline leakage characteristics based on Brunone's dynamic friction can solve the second-order accuracy problem of the very difficult and complex dynamic friction model in the MOC format, thereby more accurately and efficiently simulating the hydraulic transient characteristics of leaking pipelines, ensuring that the pipeline system leak detection and safe operation of

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  • Pipeline leakage characteristic Godunov simulation method based on Brunone dynamic friction resistance
  • Pipeline leakage characteristic Godunov simulation method based on Brunone dynamic friction resistance
  • Pipeline leakage characteristic Godunov simulation method based on Brunone dynamic friction resistance

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Embodiment

[0208] In order to verify and analyze the simulation effect of the pipeline leakage characteristic Godunov simulation method considering the Brunone dynamic friction model in the present invention, embodiment 1 selects the pipeline hydraulic transient experimental device system designed and built by Bergant in 2001 to verify the Godunov-BM simulation of the present invention The effectiveness of the method, embodiment 2 selects the simulation result of pipeline leakage in Lee2015 to verify the validity of the leakage model based on the Godunov format of the present invention. Embodiment 1 parameters: pipeline length 37.23m, diameter 0.0221m, constant water head of upstream water tank 32m, wave velocity 1319m / s, pipeline velocity V 0 =0.3m / s, Reynolds number Re=5600, the valve is closed instantly. Parameters in Example 2: pipeline length 2000m, wave velocity 1000m / s, pipeline diameter 0.5m, upstream constant water head 50m, initial flow Q 0 =0.02m 3 / s, Reynolds number is 500...

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Abstract

The invention discloses a pipeline leakage characteristic Godunov simulation method based on Brunone dynamic friction resistance. The pipeline leakage characteristic Godunov simulation method comprises the following steps: firstly, constructing a non-constant pipe flow control equation containing a Brunone dynamic friction resistance model; establishing a leakage pipeline calculation grid system according to a Godunov format of a finite volume method, and converting a control equation into a Riemannian problem; calculating the flux of a grid interface by adopting a second-order Godunov format;a boundary condition including the leakage is then processed, and a control body internal fluid variable and a control body leakage boundary fluid variable are calculated. According to the method, the problem of second-order precision of a very difficult and complex dynamic friction model in an MOC format can be solved, so that the hydraulic transient characteristics of the leakage pipeline are simulated more accurately and efficiently, and leakage detection and safe operation of a pipeline system are ensured.

Description

technical field [0001] The invention relates to a Godunov simulation method for pipeline leakage characteristics based on Brunone dynamic friction resistance, and belongs to the technical field of pipeline detection of hydropower stations (pump stations). Background technique [0002] Pipeline leakage detection is a hot and difficult issue in the global water supply industry. Pipeline leakage not only causes huge economic losses, but may also cause some secondary disasters, such as affected water quality and damage to building foundations. Therefore, accurate and effective leak detection methods are sought is an important research topic. Traditional steady-state or quasi-steady-state friction approximations cannot reproduce experimentally measured pressure damping in fast transient flows, so a dynamic friction model was introduced to account for pressure dissipation, and the results proved to be closer to experiment. The method of characteristic lines (MOC) is often used to...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/23G06F30/28G06F30/17G06F111/10G06F113/08G06F113/14G06F119/14
Inventor 周领李赟杰曹云王沛方浩宇薛子剑
Owner HOHAI UNIV
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