Lai Xuan Bach, Thi-Bich-Ngoc Dao, Kim-Long Duong-Ngo, Thanh Nha Tran, Tuan Le Minh, Hiep Nguyen Trong, Cam Tu Hoang Ngoc, C. Panaitescu, Nguyen To Hoai, N. N. Dang
{"title":"未成熟香蕉皮提取物对碳钢在强酸性溶液中电化学腐蚀的抑制作用","authors":"Lai Xuan Bach, Thi-Bich-Ngoc Dao, Kim-Long Duong-Ngo, Thanh Nha Tran, Tuan Le Minh, Hiep Nguyen Trong, Cam Tu Hoang Ngoc, C. Panaitescu, Nguyen To Hoai, N. N. Dang","doi":"10.1080/16583655.2023.2247633","DOIUrl":null,"url":null,"abstract":"Waste matter is an abundant source of recyclable materials. This study presented the corrosion inhibitor role of unripe banana peel extract (UBPE) for carbon steel in acidic environments: 1.0 M HCl, 0.5 M H2SO4, and 0.5 M HCl/0.25 M H2SO4. The aim was to demonstrate the robustness of the HCl-UBPE-steel system with respect to competing ions in the solution, and as such, generalizing its mechanism. The localized corrosion in HCl, general corrosion in H2SO4, and their theoretical midpoint were, respectively, subjected to 95.91%, 83.33%, 91.50% corrosion inhibition efficiency when UBPE was added at 3000 ppm. A protective film on the steel surface was found as the cause by electrochemical characterizations and its behavior was explained via protonation of corrosion inhibitor and rust formation on steel surface undering varying acid conditions. Therefore, the work suggests UBPE as corrosion inhibitor for steel in strongly acidic conditions containing chloride and sulfate ions. Highlights Unripe banana peel – water extract (UBPWE) acts as an eco-friendly effective inhibitor for steel in aggressively acidic environments. Carbon steel exhibits more localized corrosion in HCl solution, but more general corrosion in H2SO4 condition. UBPWE performed 95.91, 83.33, and 91.50% of inhibition efficiency for steel in HCl, H2SO4, and mixed conditions. The effective inhibition performance is assigned to the presence of a protective layer on the steel surface. GRAPHICAL ABSTRACT","PeriodicalId":17100,"journal":{"name":"Journal of Taibah University for Science","volume":" ","pages":""},"PeriodicalIF":2.8000,"publicationDate":"2023-08-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Inhibitive behaviours of unripe banana peel extract for mitigating electrochemical corrosion of carbon steel in aggressively acidic solutions\",\"authors\":\"Lai Xuan Bach, Thi-Bich-Ngoc Dao, Kim-Long Duong-Ngo, Thanh Nha Tran, Tuan Le Minh, Hiep Nguyen Trong, Cam Tu Hoang Ngoc, C. Panaitescu, Nguyen To Hoai, N. N. Dang\",\"doi\":\"10.1080/16583655.2023.2247633\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Waste matter is an abundant source of recyclable materials. This study presented the corrosion inhibitor role of unripe banana peel extract (UBPE) for carbon steel in acidic environments: 1.0 M HCl, 0.5 M H2SO4, and 0.5 M HCl/0.25 M H2SO4. The aim was to demonstrate the robustness of the HCl-UBPE-steel system with respect to competing ions in the solution, and as such, generalizing its mechanism. The localized corrosion in HCl, general corrosion in H2SO4, and their theoretical midpoint were, respectively, subjected to 95.91%, 83.33%, 91.50% corrosion inhibition efficiency when UBPE was added at 3000 ppm. A protective film on the steel surface was found as the cause by electrochemical characterizations and its behavior was explained via protonation of corrosion inhibitor and rust formation on steel surface undering varying acid conditions. Therefore, the work suggests UBPE as corrosion inhibitor for steel in strongly acidic conditions containing chloride and sulfate ions. Highlights Unripe banana peel – water extract (UBPWE) acts as an eco-friendly effective inhibitor for steel in aggressively acidic environments. Carbon steel exhibits more localized corrosion in HCl solution, but more general corrosion in H2SO4 condition. UBPWE performed 95.91, 83.33, and 91.50% of inhibition efficiency for steel in HCl, H2SO4, and mixed conditions. The effective inhibition performance is assigned to the presence of a protective layer on the steel surface. 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Inhibitive behaviours of unripe banana peel extract for mitigating electrochemical corrosion of carbon steel in aggressively acidic solutions
Waste matter is an abundant source of recyclable materials. This study presented the corrosion inhibitor role of unripe banana peel extract (UBPE) for carbon steel in acidic environments: 1.0 M HCl, 0.5 M H2SO4, and 0.5 M HCl/0.25 M H2SO4. The aim was to demonstrate the robustness of the HCl-UBPE-steel system with respect to competing ions in the solution, and as such, generalizing its mechanism. The localized corrosion in HCl, general corrosion in H2SO4, and their theoretical midpoint were, respectively, subjected to 95.91%, 83.33%, 91.50% corrosion inhibition efficiency when UBPE was added at 3000 ppm. A protective film on the steel surface was found as the cause by electrochemical characterizations and its behavior was explained via protonation of corrosion inhibitor and rust formation on steel surface undering varying acid conditions. Therefore, the work suggests UBPE as corrosion inhibitor for steel in strongly acidic conditions containing chloride and sulfate ions. Highlights Unripe banana peel – water extract (UBPWE) acts as an eco-friendly effective inhibitor for steel in aggressively acidic environments. Carbon steel exhibits more localized corrosion in HCl solution, but more general corrosion in H2SO4 condition. UBPWE performed 95.91, 83.33, and 91.50% of inhibition efficiency for steel in HCl, H2SO4, and mixed conditions. The effective inhibition performance is assigned to the presence of a protective layer on the steel surface. GRAPHICAL ABSTRACT
期刊介绍:
Journal of Taibah University for Science (JTUSCI) is an international scientific journal for the basic sciences. This journal is produced and published by Taibah University, Madinah, Kingdom of Saudi Arabia. The scope of the journal is to publish peer reviewed research papers, short communications, reviews and comments as well as the scientific conference proceedings in a special issue. The emphasis is on biology, geology, chemistry, environmental control, mathematics and statistics, nanotechnology, physics, and related fields of study. The JTUSCI now quarterly publishes four issues (Jan, Apr, Jul and Oct) per year. Submission to the Journal is based on the understanding that the article has not been previously published in any other form and is not considered for publication elsewhere.
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