Rectifier and Copper Grid Interference on the Detection Reliability of Coating Flaws on Buried Pipes,邻近整流器和接地铜网干扰对埋地管道覆盖缺陷探测准确度的影响

IF 0.8 Q4 ELECTROCHEMISTRY
M. G. Kim, B. Lim, K. T. Kim, H. Chang, Heung-Bae Park, Young-Sik Kim, 김민기, 임부택, 김기태, 장현영, 박흥배, 김영식
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引用次数: 1

摘要

埋地管道的外部腐蚀可以通过涂层和阴极保护来控制。管道涂层的损坏和劣化涉及几个因素。管道涂层缺陷的检测方法很多,直流电压梯度法是最有效的检测方法之一。然而,DCVG的检测可靠性可能会受到杂散电流、连接到整流器的金属物体和铜栅等干扰的影响。因此,本研究的重点是整流器和铜栅的干扰对涂层探伤可靠性的影响。随着与整流器连接的干扰管的长度增加,可靠性降低。相比之下,随着管道和铜格栅之间距离的增加,涂层探伤的可靠性增加。通过对带有整流器的管道和土壤中铜网干扰的电流和电势模拟,讨论了DCVG方法产生的检测结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Rectifier and Copper Grid Interference on the Detection Reliability of Coating Flaws on Buried Pipes, 매설 배관 피복 결함 탐상 정확도에 미치는 인접 정류기 및 접지 구리망 간섭의 영향
The external corrosion of buried piping can be controlled using both coating and cathodic protection. Several factors are involved in the damage and deterioration of the coating on pipes. There are many detection methods for coating defects on pipes and the direct current voltage gradient (DCVG) method is one of the most powerful methods. However, the detection reliability of DCVG can be affected by interferences such as stray current, metal objects connected to rectifiers, and copper grids. Therefore, this study focused on the interference effects of rectifiers and a copper grid on the reliability of coating flaw detection. As the length of the interference pipe connected to the rectifier increased, the reliability decreased. In contrast, as the distance between the pipe and the copper grid increased, the reliability of the coating flaw detection increased. The detection results produced by the DCVG method were discussed using current and potential simulations for a pipe with a rectifier and copper grid interference in the soil.
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来源期刊
CiteScore
1.30
自引率
66.70%
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