Safety comprehensive monitoring and evaluation method for in-service metal pipeline and pressure-containing part

A technology of metal pipes and evaluation methods, which is applied in the direction of measuring devices, instruments, etc., can solve the problems of single detection/monitoring method, low detection efficiency, wear and tear, etc., and achieve the effect of improving safety evaluation efficiency and accuracy

Active Publication Date: 2016-01-06
EDDYSUN (XIAMEN) ELECTRONICS CO LTD
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Problems solved by technology

In addition, metal pressure-bearing parts are also prone to corrosion, wear, and stress concentration fatigue damage during service.
At present, the ultrasonic thickness measurement method is usually used to detect the wall thickness, the electrochemical method is used to detect the corrosion, and the metal magnetic memory method is used to detect the stress concentration state, and it is usually necessary to dig the pi

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  • Safety comprehensive monitoring and evaluation method for in-service metal pipeline and pressure-containing part
  • Safety comprehensive monitoring and evaluation method for in-service metal pipeline and pressure-containing part

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Embodiment Construction

[0021] figure 1 The first embodiment shown is a comprehensive monitoring and evaluation method for the safety of in-service metal pipelines and pressure parts, which uses an integrated detection method that combines ultrasonic thickness measurement, electrochemical corrosion detection, and metal magnetograph detection to improve The safety monitoring accuracy of in-service metal pipelines 8 is realized to realize the comprehensive evaluation of the safety status of in-service metal pipelines and pressure-bearing parts, including the following steps,

[0022] a. An ultrasonic thickness measuring probe 1, an electrochemical corrosion detection probe 2, and a metal magnetic memory array detection probe 3 are arranged on the monitoring part of the metal pipeline 8 under inspection; the metal magnetic memory array detection probe 3 includes a plurality of detection array elements; Ultrasonic thickness probe 1 is connected to ultrasonic thickness gauge 4; electrochemical corrosion d...

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Abstract

The invention discloses a safety comprehensive monitoring and evaluation method for an in-service metal pipeline and a pressure-containing part. An integrated detection method which combines an ultrasonic thickness measurement method, an electrochemical corrosion detection method and a metal magnetic recording detection method is adopted, safety monitoring accuracy for the in-service metal pipeline and the pressure-containing part is improved, safety state comprehensive evaluation for the in-service metal pipeline and the pressure-containing part is realized, and a safety state development trend for the in-service metal pipeline and the pressure-containing part is predicted. Further, a wireless data transmission technology is adopted, remote monitoring on safety states such as corrosion of the in-service metal pipeline and the pressure-containing part, wall thickness and stress concentration are realized, data storage, analysis and management are realized, and the safety evaluation efficiency for the in-service pipeline is greatly improved.

Description

Technical field [0001] The invention relates to a non-destructive testing method, in particular to a comprehensive safety monitoring and evaluation method for in-service metal pipelines and pressure-bearing parts. Background technique [0002] Pipeline transportation is the main mode of transportation for modern oil and natural gas. Because oil and gas pipelines are buried underground and the external environment is harsh, coupled with the influence of medium erosion and medium corrosion inside the pipeline, corrosion, thinning and stress of the pipeline wall occur. Concentration, leading to pipeline rupture and leakage accidents, resulting in significant waste of resources and environmental pollution. Therefore, it is of great practical significance to monitor pipeline corrosion, wall thickness thinning, and stress concentration, and timely discover corrosion points, wall thickness thinning points, and stress concentration points that may cause pipeline rupture and leakage,...

Claims

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Application Information

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IPC IPC(8): G01D21/02
Inventor 林俊明张开良林昌健
Owner EDDYSUN (XIAMEN) ELECTRONICS CO LTD
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