탄소강배관 다중 UT 측정두께를 활용한 감육여부 판별법 개발

To manage the wall thinning of carbon steel piping in nuclear power plants, the utility of Korea has performed thickness inspection for some quantity of pipe components during refueling outages and determined whether repair or replacement after evaluating UT (Ultrasonic Test) data. When the existing...

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Veröffentlicht in:Corrosion science and technology 2012, 11(5), , pp.173-178
Hauptverfasser: 황경모, Kyeong Mo Hwang, 윤훈, Hun Yun, 이찬규, Chan Kyoo Lee
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Sprache:kor
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Zusammenfassung:To manage the wall thinning of carbon steel piping in nuclear power plants, the utility of Korea has performed thickness inspection for some quantity of pipe components during refueling outages and determined whether repair or replacement after evaluating UT (Ultrasonic Test) data. When the existing UT data evaluation methods, such as Band, Blanket, PTP (Point to Point) Methods, are applied to a certain pipc component, unnecessary re-inspecting situations may be generated even though the component does not thinned. In those cases, economical loss caused by repeated inspection and problems of maintaining the pipe integrity followed by decreasing of newly inspected components may be generated. EPRI(Electric Power Research Institute) in USA has suggested several statistical methods, TPM(Total Point Method), LSS(Least Square Slope) Method, etc. to distinguish whether multiple inspecting components have thinned or not. This paper presents the analysis results for multiple inspecting components over three times based on both NAM (Near Area of Minimum) Method developed by KEPCO-E&C and the and the other methods suggested by EPRI.
ISSN:1598-6462
2288-6524