Monitoring of under deposit corrosion for the oil and gas industry: A review

Sliem, M.H.; Fayyad, E.M.; Abdullah, A.M.; Younan, N.A.; Al-Qahtani, N.; Nabhan, Fatma F.; Ramesh, A.; Laycock, N; Ryan, M.P.; Maqbool, M; Arora, Dhruv

doi:10.1016/j.petrol.2021.108752

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Monitoring of under deposit corrosion for the oil and gas industry: A review

Author(s): M.H. Sliem , E.M. Fayyad , A.M. Abdullah , N.A. Younan , N. Al-Qahtani , Fatma F. Nabhan , A. Ramesh , N. Laycock , M.P. Ryan , M. Maqbool , Dhruv Arora

Publication date Created: September 2021

Publication date (Print): September 2021

Journal: Journal of Petroleum Science and Engineering

Publisher: Elsevier BV

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Technical Note:Concerning the Conversion of the Constant Phase Element Parameter Y0into a Capacitance

F. Mansfeld, C. H. Hsu (2001)

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The chemistry of the hydrogen sulfide and iron sulfide systems in natural waters

Stephen Morse, F Millero, J Cornwell … (1987)

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Is Open Access

Theory and Application of Magnetic Flux Leakage Pipeline Detection

Yan Shi, Chao Zhang, Ying-Rui Li … (2015)

Magnetic flux leakage (MFL) detection is one of the most popular methods of pipeline inspection. It is a nondestructive testing technique which uses magnetic sensitive sensors to detect the magnetic leakage field of defects on both the internal and external surfaces of pipelines. This paper introduces the main principles, measurement and processing of MFL data. As the key point of a quantitative analysis of MFL detection, the identification of the leakage magnetic signal is also discussed. In addition, the advantages and disadvantages of different identification methods are analyzed. Then the paper briefly introduces the expert systems used. At the end of this paper, future developments in pipeline MFL detection are predicted.