Corrosion-Erosion Monitoring Systems for Managing Asset Integrity
(Room Conference Hall)
04 Apr 18
2:00 PM
-
3:30 PM
This paper introduces a novel technology that continuously monitors wall-loss rates in pipelines. A pair of permanently installed ring arrays of ultrasonic transducers encircles the pipe and delimits the section to be monitored. The arrays excite and receive guided ultrasonic waves that travel inside the pipe wall and insonify the entire pipe section. The CEM covers a much larger section of pipe surface than spot measurement systems with a comparable number of transducers. The received signals are then processed by advanced tomographic algorithms to produce a point-by-point map of wall thickness loss between the arrays. The algorithms are designed to detect changes between two material states of the pipe and use differential measurements to eliminate time-independent experimental uncertainties. As a result, wall loss can be estimated with accuracy beyond the pipe manufacturing tolerances. Moreover, a strategy that combines a robust temperature compensation scheme with the intrinsic thermal stability of electromagnetic acoustic transducers (EMATs) is used to address signal instabilities caused by typical thermal fluctuations experienced in field applications. Full-scale experiments are presented demonstrating maximum-depth estimation accuracy better that 0.5 % of wall thickness with excellent thermal stability up to 175 C.