Detection of natural gas pipeline defects using magnetic flux leakage measurements
Electrical Engineering(2013)
摘要
Magnetic Flux Leakage (MFL) testing is the most widely used non-destructive techniques for the in-service inspection of oil and gas pipelines. This study presents novel approaches to detect defects by employing MFL signals. Estimating the number of defects, locations, and orientations from measurements is a typical inverse problem in electromagnetic non-destructive evaluations (NDE). A detection algorithm on axial flux is proposed for defect detection based on image processing approaches and morphological methods. Finally, the efficacy and accuracy of the proposed algorithm is validated through examinations on simulated defects and real experimental MFL data. Simulated defects are generated in presence of multiple uncertainties and noises; including the variation of the pipeline thickness, sensors liftoff, magnetization level, and shape irregularity.
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关键词
magnetic flux,magnetic leakage,magnetic sensors,magnetic variables measurement,natural gas technology,nondestructive testing,pipelines,mfl signals,nde,axial flux,electromagnetic nondestructive evaluations,magnetic flux leakage measurements,magnetization level,natural gas pipeline defects detection,nondestructive techniques,pipeline thickness,sensors liftoff,shape irregularity,typical inverse problem,mfl,defect detection,image processing,non-destructive testing,radial flux,shape,magnetic flux leakage,inspection,non destructive testing
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