Method for monitoring pressure pipeline leakage acoustic emission in nuclear power plant and monitoring system thereof

A pressure pipeline and monitoring system technology, applied in pipeline systems, mechanical equipment, gas/liquid distribution and storage, etc., can solve the problems of lack of effective estimation of leakage rate, quantitative analysis of leakage, identification and location of pressure pipeline leakage, etc. Achieve the effects of improving real-time performance and sensitivity, improving the ability to resist false alarms, and improving reliability

Active Publication Date: 2010-05-12
NUCLEAR POWER INSTITUTE OF CHINA
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Problems solved by technology

However, the current acoustic emission monitoring method for pressure boundary leakage can only realize the identification and location of pressure pipeline leakage, and cannot perform accurate quantitative analysis on leakage, and lacks an effective estimation of leakage rate

Method used

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  • Method for monitoring pressure pipeline leakage acoustic emission in nuclear power plant and monitoring system thereof
  • Method for monitoring pressure pipeline leakage acoustic emission in nuclear power plant and monitoring system thereof
  • Method for monitoring pressure pipeline leakage acoustic emission in nuclear power plant and monitoring system thereof

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Embodiment

[0106] Using the method and system of the present invention, using the power equipment comprehensive test device as a test platform, respectively connect the processed microporous test piece and the leakage test section of the pressure pipeline through the crack to the test interface of the power equipment comprehensive test device, and the pressure on the nuclear power plant Pipelines are subjected to thermoacoustic effect test of insulation layer, micropore leakage test and acoustic emission test of pipeline through crack leakage:

[0107] Four 0Cr18Ni10Ti high-pressure pipes with an outer diameter of Φ152mm, a wall thickness of 12mm, and a length of 7700mm (consisting of a 500mm-long crack test piece and a 3600mm long pipe section before and after welding) were used as test pieces, and processed by EDM. Etch an axial V-shaped groove on the inner surface, use the pressure pipeline crack opening area calculation model and the crack leakage calculation model to calculate the pe...

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Abstract

The invention relates to a method for monitoring pressure pipe leakage acoustic emission in a nuclear power plant and a monitoring system thereof. The monitoring method adopts the technical scheme that a pressure pipe leakage test piece is prepared; the initiation, crack, expansion and through leakage of the pipeline of the nuclear power plant are imitated, a leakage acoustic emission calibration test is performed, and the through crack leakage of the pipeline under high temperature and high pressure environment in nuclear power plant is imitated. The monitoring system adopts a standardized and modularized design which is based on PXI bus and convenient for system maintenance and part replacement. Through adopting the monitoring method and the monitoring system, the data record of leakage event and the database management of monitoring result can be achieved; moreover, the leak position and the dynamic change of leak rate are completely reflected.

Description

technical field [0001] The invention relates to a monitoring method and a monitoring system for a nuclear power plant pressure pipeline, in particular to a nuclear power plant pressure pipeline leakage acoustic emission monitoring method and a monitoring system. Background technique [0002] There are a large number of welded structures in the pressure vessels and pipelines of nuclear power plants, and there will be welding defects in many welds. Alternating loads, as well as being affected by the environment (such as radiation) and media (such as corrosion), will cause the original defects in pressure vessels and pipelines to crack, expand, and sometimes new defects will be initiated. Defective pressure vessels and pipelines cause crack initiation and expansion during production, and eventually lead to failure of pressure vessels and pipelines. There are two types of failure: leakage and explosion. In order to avoid the occurrence of blasting, the evaluation criterion of ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F17D5/06
Inventor 刘才学何攀宋健王瑶艾琼黄礼渊
Owner NUCLEAR POWER INSTITUTE OF CHINA
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