Mercaptopropionic acid-modified oleic imidazoline as a highly efficient corrosion inhibitor for carbon steel in CO2-saturated formation water

Ziqi Zheng; Junying Hu; Noam Eliaz; Li Zhou; Xi Yuan; Xiankang Zhong

doi:10.1016/j.corsci.2021.109930

Mercaptopropionic acid-modified oleic imidazoline as a highly efficient corrosion inhibitor for carbon steel in CO₂-saturated formation water

Ziqi Zheng, Junying Hu, Noam Eliaz, Li Zhou, Xi Yuan, Xiankang Zhong

Department of Materials Science and Engineering

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

Two imidazoline derivatives (OI and MOI) were synthesized as highly efficient inhibitors, and their inhibition performances and mechanisms in CO₂-containing solution were studied using weight loss measurements, electrochemical tests, surface analysis and theoretical calculations. The results indicate that OI and MOI show excellent inhibition efficiency. Especially for MOI, its inhibition efficiency is as high as 95.58% at 20 ppm. Theoretical calculations confirm that both inhibitors successfully adsorb on metal surface via chemisorption. MOI shows a better inhibition performance than OI, because the sulfhydryl in MOI can be used as a powerful adsorption site, effectively improving the adsorption ability of MOI.

Original language	English
Article number	109930
Journal	Corrosion Science
Volume	194
DOIs	https://doi.org/10.1016/j.corsci.2021.109930
State	Published - Jan 2022

Keywords

Adsorption
CO corrosion
Carbon steel
Inhibitor
Molecular dynamics simulation
Quantum chemical calculation

All Science Journal Classification (ASJC) codes

General Chemistry
General Chemical Engineering
General Materials Science

Access to Document

10.1016/j.corsci.2021.109930

Cite this

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title = "Mercaptopropionic acid-modified oleic imidazoline as a highly efficient corrosion inhibitor for carbon steel in CO2-saturated formation water",

abstract = "Two imidazoline derivatives (OI and MOI) were synthesized as highly efficient inhibitors, and their inhibition performances and mechanisms in CO2-containing solution were studied using weight loss measurements, electrochemical tests, surface analysis and theoretical calculations. The results indicate that OI and MOI show excellent inhibition efficiency. Especially for MOI, its inhibition efficiency is as high as 95.58% at 20 ppm. Theoretical calculations confirm that both inhibitors successfully adsorb on metal surface via chemisorption. MOI shows a better inhibition performance than OI, because the sulfhydryl in MOI can be used as a powerful adsorption site, effectively improving the adsorption ability of MOI.",

keywords = "Adsorption, CO corrosion, Carbon steel, Inhibitor, Molecular dynamics simulation, Quantum chemical calculation",

author = "Ziqi Zheng and Junying Hu and Noam Eliaz and Li Zhou and Xi Yuan and Xiankang Zhong",

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year = "2022",

month = jan,

doi = "10.1016/j.corsci.2021.109930",

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journal = "Corrosion Science",

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TY - JOUR

T1 - Mercaptopropionic acid-modified oleic imidazoline as a highly efficient corrosion inhibitor for carbon steel in CO2-saturated formation water

AU - Zheng, Ziqi

AU - Hu, Junying

AU - Eliaz, Noam

AU - Zhou, Li

AU - Yuan, Xi

AU - Zhong, Xiankang

PY - 2022/1

Y1 - 2022/1

N2 - Two imidazoline derivatives (OI and MOI) were synthesized as highly efficient inhibitors, and their inhibition performances and mechanisms in CO2-containing solution were studied using weight loss measurements, electrochemical tests, surface analysis and theoretical calculations. The results indicate that OI and MOI show excellent inhibition efficiency. Especially for MOI, its inhibition efficiency is as high as 95.58% at 20 ppm. Theoretical calculations confirm that both inhibitors successfully adsorb on metal surface via chemisorption. MOI shows a better inhibition performance than OI, because the sulfhydryl in MOI can be used as a powerful adsorption site, effectively improving the adsorption ability of MOI.

AB - Two imidazoline derivatives (OI and MOI) were synthesized as highly efficient inhibitors, and their inhibition performances and mechanisms in CO2-containing solution were studied using weight loss measurements, electrochemical tests, surface analysis and theoretical calculations. The results indicate that OI and MOI show excellent inhibition efficiency. Especially for MOI, its inhibition efficiency is as high as 95.58% at 20 ppm. Theoretical calculations confirm that both inhibitors successfully adsorb on metal surface via chemisorption. MOI shows a better inhibition performance than OI, because the sulfhydryl in MOI can be used as a powerful adsorption site, effectively improving the adsorption ability of MOI.

KW - Adsorption

KW - CO corrosion

KW - Carbon steel

KW - Inhibitor

KW - Molecular dynamics simulation

KW - Quantum chemical calculation

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DO - 10.1016/j.corsci.2021.109930

M3 - مقالة

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JO - Corrosion Science

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