Author:
Lean Tai Jan,Hameed Sultan Mohamed Thariq,Shahar Farah Syazwani
Abstract
This review aims to study the process plant damage mechanisms published by previous research, such as general corrosion, localised corrosion, and stress corrosion cracking. This review was conducted by analysing the current application of the common inspection method and technique and focusing on the phased array ultrasonic testing application. In order to further the current study, the review seeks direction on evaluating phased array corrosion mapping techniques to detect corrosion and metal loss during plant operation and minimise the plant’s need for maintenance. This systematic literature review provides a better understanding of the current damage mechanisms and shows the possibility of an extended future study.
Publisher
Universiti Putra Malaysia
Reference58 articles.
1. Aliprandi, P., Guglielmino, E., & Sili, A. (2020). Mechanical characterisation of the ASTM A335 P5 steel and reliability of radiant tubes after long operating time in a petrochemical industry furnace. Metallurgia Italiana, 112(10), 45-53.
2. Almazrouee, A. I., Al-Fadhalah, K. J., Alhajeri, S. N., & Alfehaid, S. (2018). High temperature corrosion of martensitic steel of reheater pipes in a desalination power plant. Engineering Failure Analysis, 85, 89-96. https://doi.org/10.1016/j.engfailanal.2017.12.003
3. Ameh, E. S., Ikpeseni, S. C., & Lawal, L. S. (2018). A review of field corrosion control and monitoring techniques of the upstream oil and gas pipelines. Nigerian Journal of Technological Development, 14(2), 67-73. https://doi.org/10.4314/njtd.v14i2.5
4. API. (2011). API recommended practice 571: Damage mechanisms affecting fixed equipment in the refining industry. American Petroleum Institute. https://www.apiwebstore.org/standards/571?__hstc=23321061.45041909c1713c2f47776c88c555a58e.1717118461018.1717118461018.1717118461018.1&__hssc=23321061.1.1717118461019&__hsfp=1989271524
5. Baby, N. V., Paricha, B., & Naik, S. J. (2016). Determination of corrosion rates and remaining life of piping using API and ASME standards in oil and gas industries. International Research Journal of Engineering and Technology, 3(6), 772-777.