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The purpose of the present study is to develop an understanding of how iron carbide layers, derived from the different microstructures of carbon steels during corrosion, affect corrosion behavior and inhibitor performance. The applications of this study in industry are numerous. Many types of mild steel are used in the construction of pipeline transmission systems. Compared to the use of corrosion resistant materials, corrosion inhibitors used in combination with carbon steel can be an economic alternative for corrosion mitigation in oil and gas pipelines. Therefore, such research that sheds…mehr

Produktbeschreibung
The purpose of the present study is to develop an understanding of how iron carbide layers, derived from the different microstructures of carbon steels during corrosion, affect corrosion behavior and inhibitor performance. The applications of this study in industry are numerous. Many types of mild steel are used in the construction of pipeline transmission systems. Compared to the use of corrosion resistant materials, corrosion inhibitors used in combination with carbon steel can be an economic alternative for corrosion mitigation in oil and gas pipelines. Therefore, such research that sheds light on factors that affect inhibitor performance, as well as mechanistic phenomena thereof, is of great importance regarding the design, qualification, and choice of inhibitors. This process can be used in common industrial applications, particularly in infrastructure for the production of oil and gas, in order to: 1- Increase production 2- Avoid unscheduled shutdowns 3- Reduce environmental contamination 4- Reduce high repair costs 5- Avoid fire accidents. These advantages are reflected in the cost of crude oil.
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Autorenporträt
M.Sc. Akram A. Al-Asadi was born in Thi-Qar-Iraq. He studied in Iraq at the Southern Technical University where he successfully completed a Bachelor degree in Petrochemical Engineering. He continued for another degree, in graduate studies at Ohio University pursuing Master of Science in Chemical Engineering, which was achieved on December 2014.