The Use of Models to Evaluate Corrosion Effects on Mild Steel Heat Exchanger in Water and Mono Ethanol Amine (MEA)  

作　　者：Ojong Elias Ojong Jaja Zina Wosu Chimene Omeke Ana Anakri Ekpenyong Dadet Wilson Anaba Catherine Uloma Emenike Aguma Sedi Patrick Forwah Jacques Ndeh Ojong Elias Ojong;Jaja Zina;Wosu Chimene Omeke;Ana Anakri Ekpenyong;Dadet Wilson;Anaba Catherine Uloma;Emenike Aguma;Sedi Patrick;Forwah Jacques Ndeh(Department of Chemical Engineering, Faculty of Engineering & Technology, University of Calabar, Calabar, Nigeria;Department of Chemical/Petrochemical Engineering, Faculty of Engineering, Rivers State University, Port Harcourt, Nigeria;Department of Chemical Engineering, Federal University Otuoke, Otuoke, Nigeria;Department of Petroleum Engineering, Faculty of Engineering & Technology, University of Calabar, Calabar, Nigeria;Department of Chemical Engineering, University of Benin, Benin, Nigeria;Department of Clinical Biochemistry and Immunology, Faculty of Medical Laboratory Sciences, University of Calabar, Calabar, Nigeria)

机构地区：[1]Department of Chemical Engineering, Faculty of Engineering & Technology, University of Calabar, Calabar, Nigeria [2]Department of Chemical/Petrochemical Engineering, Faculty of Engineering, Rivers State University, Port Harcourt, Nigeria [3]Department of Chemical Engineering, Federal University Otuoke, Otuoke, Nigeria [4]Department of Petroleum Engineering, Faculty of Engineering & Technology, University of Calabar, Calabar, Nigeria [5]Department of Chemical Engineering, University of Benin, Benin, Nigeria [6]Department of Clinical Biochemistry and Immunology, Faculty of Medical Laboratory Sciences, University of Calabar, Calabar, Nigeria

出　　处：《Advances in Chemical Engineering and Science》2023年第4期336-350,共15页化学工程与科学期刊（英文）

摘　　要：Heat exchanger is an important equipment used in process industries for cooling and heating purposes. Its design configuration which involves the flow of cold and hot fluids within the exchanger subjects it to corrosion attack. The article utilized the principle of mass and energy conservation in the development of weight and temperature models to study the effect of corrosion on mild steel coupon inside the exchanger containing water and Mono ethanol amine (MEA). The models developed were resolved analytically using Laplace Transform and simulated using Excel as simulation tool and data obtained from experiment in the laboratory to obtain profiles of weight loss and temperature as a function of time. The weight loss and performance of mild steel under various corrosive conditions were examined which indicates the effect of corrosion on the mild steel heat exchanger in water and MEA media. The result shows that water is more corrosive than MEA at higher temperatures and at lower temperatures of 35°C and 1 atm, MEA has inhibitive properties than water as indicated by the weight loss result with time. The comparative analysis between the results obtained from the model simulation and experimental results shows that the result obtained from the model is more reliable and demonstrated better performance characteristics as it clearly shows mild steel heat exchanger experiences more corrosive effect in water medium than MEA at higher temperatures. And at lower temperatures, MEA becomes more inhibitive and less corrosive than water. The model simulation results correlate with various literatures and hence, it is valid for future referencing.Heat exchanger is an important equipment used in process industries for cooling and heating purposes. Its design configuration which involves the flow of cold and hot fluids within the exchanger subjects it to corrosion attack. The article utilized the principle of mass and energy conservation in the development of weight and temperature models to study the effect of corrosion on mild steel coupon inside the exchanger containing water and Mono ethanol amine (MEA). The models developed were resolved analytically using Laplace Transform and simulated using Excel as simulation tool and data obtained from experiment in the laboratory to obtain profiles of weight loss and temperature as a function of time. The weight loss and performance of mild steel under various corrosive conditions were examined which indicates the effect of corrosion on the mild steel heat exchanger in water and MEA media. The result shows that water is more corrosive than MEA at higher temperatures and at lower temperatures of 35°C and 1 atm, MEA has inhibitive properties than water as indicated by the weight loss result with time. The comparative analysis between the results obtained from the model simulation and experimental results shows that the result obtained from the model is more reliable and demonstrated better performance characteristics as it clearly shows mild steel heat exchanger experiences more corrosive effect in water medium than MEA at higher temperatures. And at lower temperatures, MEA becomes more inhibitive and less corrosive than water. The model simulation results correlate with various literatures and hence, it is valid for future referencing.

关 键 词：Model Corrosion Effect Heat Exchanger Simulation Media Mild Steel COUPON 

分 类 号：TG1[金属学及工艺—金属学]