Discussions of General Methods for Measurement and Monitoring of Corrosion in the Oil & Gas Industry
Abstract
With a rapid consumption of oil energy, valuing the amount of hydrocarbon is a significantly noteworthy topic in the world. According to the result of studies, the leakage of oil transportation pipelines is one of the central reasons that lead to the waste of oil energy. Although hydrocarbon is a widely used energy, there is another reason makes people have to pay attention to it, which is the serious influences created by the accidents of oil leakages. Furthermore, based on the studies, there are many reasons could result the failures of pipeline systems. However, the prominent reason causes the leakage accident of oil pipeline systems is the corrosion issue of pipelines, pipeline corrosion can reduce the strength and integrity of pipelines’ structure. Therefore, engineers have realized that predicating the corrosion of pipelines can make contributions to avoid the failures of transportation systems. As a result, lots of technologies have been developed to detect the corrosion of pipelines, which could be classified into five categories, Electrical Resistance Monitoring, Electrochemical Methods, Hydrogen Monitoring, Weight Loss Coupons, and Non-Destructive Testing Technology. The main purpose of this essay is going to give a brief introduction and detailed analysis about those technologies.
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[1] Agarwala, V. S., Reed, P. L., & Ahmad, S. (2000, March). Corrosion detection and monitoring - A review. Paper presented at CORROSION 2000, Orlando, Florida.
[2] Granham, S. (2003). Environmental effects of Exxon Valdez Spill still being felt. Scientific American, 19.
[3] Menon, E. S. (2011). Pipeline planning and construction field manual (pp.293-304). Netherlands: Gulf Professional Publishing.
[4] Bai, Y., & Bai, Q. (2012). Subsea engineering handbook (pp.505-540). Netherlands: Gulf Professional Publishing.
[5] Fakhro, K. M. (1991, November). Review on the national and regional response to oil spill in the Arabian Gulf. Paper presented at Middle East Oil Show, Bahrain.
[6] Hedges, B., Chen, H. J., Bieri, T. H., & Spragure, K. (2006, March). A review of monitoring and inspection techniques for CO2 and H2S corrosion in oil & gas production facilities: Location, location, location. Paper presented at CORROSION, San Diego, California.
[7] Strommen, R. D. (2002, April). Seven Years of Unique Experience from Subsea, Deepwater Pipeline Internal Corrosion Monitoring. Paper presented at CORROSION 2002, Denver, Colorado.
[8] Retrieved from http://www.protansa.com/sevicios/CORROSION_MONITORING.pdf
[9] Habib, K. (2011, March). Measurement of surface resistivity/conductivity of carbon steel in inhibited seawater by optical interferometry techniques. Paper presented at CORROSION 2011, Houston, Texas.
DOI: http://dx.doi.org/10.3968/8045
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