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http://dx.doi.org/10.12925/jkocs.2021.38.1.19

A Study on Rust Cleaning of Various Industrial Equipment Using Cosmetic and Food Materials  

Yeom, Seok-Jae (Seegene Medical Foundation, Life & Environment Science center)
Jung, Sundo (Department of Biomedical Laboratory Science, Shinhan University)
Oh, Eunha (Seegene Medical Foundation, Life & Environment Science center)
Publication Information
Journal of the Korean Applied Science and Technology / v.38, no.1, 2021 , pp. 19-28 More about this Journal
Abstract
Corrosion is the degradation of metals by reaction with the environment. It is difficult to completely remove. Corrosion proceeds rapidly after the protective barrier is destroyed, and several reactions occur that alter the composition and properties of the metal surface and local environments, such as diffusion of metal cations into the matrix, the formation of oxides, and local pH changes. The study of corrosion of steel and iron is of theoretical and practical interest and is receiving considerable attention. Acid solutions, which are widely used in industrial pickling, acid descaling, cleaning and acidification of oil wells, require the use of corrosion inhibitors to suppress corrosion attacks on metallic materials. Physical removal of rust requires expensive special equipment, and chemical removal of it can cause corrosion or shorten the life of the metal. In this study, an eco-friendly rust cleaner was developed using cosmetics and food materials by applying the concept of perm reducing agent and chelate, and applied to remove rust from industrial and hot water pipes and various industrial devices. As a result, it was found that rust cleaners remove rust more effectively and safely compared to conventional treatment methods. At the same time, the rust removal efficiency was 1.75 to 2.5 times better for industrial piping and 1.56 to 2.2 times better for boiler hot water than conventional methods.
Keywords
Rust cleaner; corrosion; permeant waving reducing agent; chelate; Gravimetric analysis method;
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1 C. Verma, E. E. Ebenso, L. O. Olasunkanmi, I. B. Obot, "Adsorption Behavior of Glucosamine Based Pyrimidine-fused Heterocycles as Green Corrosion Inhibitors for Mild Steel: Experimental and Theoretical Studies", J. Phys. Chem. C., Vol 120, pp. 11598-11611, (2016).   DOI
2 A. Zeino, I. Abdulazeez, M. W. Jawich, "Mechanistic study of polyaspartic acid (PASP) as eco-friendly corrosion inhibitor on mild steel in 3% NaCl aerated solution", J. Molecular Liquids, Vol 250, pp. 50-62, (2018).   DOI
3 K. F. Khaled, "Monte Carlo simulations of corrosion inhibition of mild steel in 0.5 M sulphuric acid by some green corrosion inhibitors", J. Solid State Electrochem., Vol 13, No 13, pp. 1743-1756, (2009).   DOI
4 T. H. Lee, K. H. Ryu, H. D. Kim, S. Choi, "Effect of oxide film on ECT detectability of surface IGSCC in laboratory-degraded alloy 600 steam generator tubing", Nuclear Engineering and Technology, Vol 51, pp. 1381-1389, (2019).   DOI
5 A. Kahyarian, A. Schumaker, A. Brown, "Acidic corrosion of mild steel in the presence of acetic acid: Mechanism and prediction", Electrochimica Acta, Vol 258, pp. 639-652, (2017).   DOI
6 A. Amin, K. Khaled, Q. Mohsen, H. Arida, "A study of the inhibition of iron corrosion in HCl solutions by some amino acids", Corrosion Science, Vol 52, pp. 1684-1695, (2010).   DOI
7 A. Fiala, A. Chibani, A. Darchen, A. Boulkamh, and K. Djebbar, "Investigations of the inhibition of copper corrosion in nitric acid solutions by ketene dithioacetal derivatives," Applied Surface Science, Vol 253, No.24 pp. 9347-9356, (2007).   DOI
8 J. Aljourani, K. Raeissi, M. Golozar, "Benzimidazole and its derivatives as corrosion inhibitors for mild steel in 1M HCl solution", Corrosion Science, Vol 51, pp. 1836-1843, (2009).   DOI
9 S. A. Umoren, O. Ogbobe, I. O. Igwe, and E. E. Ebenso, "Inhibition of mild steel corrosion in acidic medium using synthetic and naturally occurring polymers and synergistic halide additives," Corrosion Science, Vol 50, No.7 pp. 1998-2006, (2008).   DOI
10 M. Yadav, L. Gope, T. K. Sarkar, "Synthesized amino acid compounds as eco-friendly corrosion inhibitors for mild steel in hydrochloric acid solution: electrochemical and quantum studies", Research on Chemical Intermediates, Vol. 42, pp. 2641-2660, (2016).   DOI
11 A. Chetouani and B. Hammouti, "Corrosion inhibition of iron in hydrochloric acid solutions by naturally henna," Bulletin of Electrochemistry, Vol 19, No.1 pp. 23-25, (2003).
12 A.Y. Musa, A.A.H. Kadhum, A.B. Mohamad, M.S. Takriff, E.P. Chee, "Inhibition of aluminum corrosion by phthalazinone and synergistic effect of halide ion in 1.0 M HCl", Current Applied Physics., Vol 12, pp. 325-330, (2012).   DOI
13 K. Khaled, M.A. Amin, "Corrosion monitoring of mild steel in sulphuric acid solutions in presence of some thiazole derivatives-molecular dynamics, chemical and electrochemical studies", Corrosion Science, Vol 51, pp. 1964-1975, (2009).   DOI
14 G. Junlin, Z. Guozhi., "Study and Application of Environmental and Efficient KM Metal Cleaner", Corrosion and Protection, Vol 29, No.6 pp. 15-17, (2008).
15 I. B. Obot, M. M. Solomon, R. Suleimana, M. Elanany, "Progress in the development of sour corrosion inhibitors: Past, present, and future perspectives", J. Industrial and Engineering Chem., Vol 79, pp. 1-18, (2019).   DOI
16 N. Raghavendra, J.I. Bhat, "Green approach to inhibition of corrosion of aluminum in 0.5 M HCl medium by tender arecanut seed extract: insight from gravimetric and electrochemical studies", Research on Chemical Intermediates, Vol 42, pp. 6351-6372, (2016).   DOI
17 D. Jamil, A. Al-Okbi, S. Al-Baghdadi, A. Al-Amiery, A. Kadhim, T. Gaaz, A. Kadhum, A. Mohamad "Experimental and theoretical studies of Schiff bases as corrosion inhibitors", Chemical Central Journal., Vol 12, pp. 1-9, (2018)   DOI
18 K. Azzaoui, "Eco friendly green inhibitor Gum Arabic (GA) for the corrosion control of mild steel in hydrochloric acid medium", Corrosion Science, Vol 129, pp. 70-81, (2017).   DOI
19 J. Liqiang, Z. Jingwu, L. Hua., "Study on Acid Fog Inhibitor and Corrosion Inhibition for Pickling Process of Hydrochloric Acid", Corrosion Science and Prevention Technology, Vol 16, No.2, pp. 98-101, (2004).
20 P. E. Alvarez, M. Fiori-Bimbi, A. Neske, "Rollinia occidentalis extract as green corrosion inhibitor for carbon steel in HCl solution", Journal of Industrial and Engineering Chemistry, Vol 58, pp. 92-99, (2018).   DOI
21 M. A. Migahed, I. F. Nassar, "Corrosion inhibition of Tubing steel during acidization of oil and gas wells", Electrochim. Acta., Vol 53, pp. 2877-2882 (2008).   DOI
22 S. Zhang, R. Shi, Y. Tan, "Corrosion behavior of the oxide films modified with zincizing treatment on AISI 1020 steel", J. Alloys and Compounds, Vol 711, pp. 155-161, (2017).   DOI
23 P. K. Mathur, L. N. Srivastava, "Gravimetric estimation ofsilver as silver tetraisothiocyanato dianilinechromate(III), Fresenius" J. Analytical Chem., Vol 262, No.2, 110, (1972).