Eco-friendly green corrosion inhibitors in overview

Authors

  • Mohammed Al-mashhadani Department of Chemistry, College of Science, Al-Nahrain University, P. O. Box: 64074, Baghdad, Iraq
  • Waled Abdo Ahmed Department of chemistry, Faculty of Education, Thamar University, Thamar, Yemen
  • Mustafa Abdallh Department of Chemistry, College of Science, Al-Nahrain University, Baghdad, Iraq
  • Zainab Hussain Department of Chemistry, College of Science, Al-Nahrain University, Baghdad, Iraq
  • Emad Yousif Department of Chemistry, College of Science, Al-Nahrain University, Baghdad, Iraq

DOI:

https://doi.org/10.6084/rjas.v1i1.125

Keywords:

corrosion corrosion Inhibitors green inhibitors

Abstract

Green inhibitors are substances obtained from natural sources and used to stop aggressive dangerous of the metallic corrosion without damaging the eco-system of the environment. Nowadays corrosion causes problems in a wide range of industries such as oil and chemical productions. This paper includes a literature review of the most important corrosion green inhibitors which are used in industry. It is also presenting the categories of green inhibitors such as organic green inhibitors, inorganic green inhibitors, and natural polymers. The synthetic materials without any hazards also considers as a green inhibitors. The mechanism of inhibitive process between the eco-friendly inhibitor and the metallic surface was also described in this work.

Author Biography

  • Waled Abdo Ahmed, Department of chemistry, Faculty of Education, Thamar University, Thamar, Yemen

    Waled Abdo Ahmed lives in Yemen, Taiz city, Bachelor of Science (Chemistry-physics) - Taiz University, Taiz, Yemen, with excellence (90.8%). MSC and PhD degree from a world-ranked leading Malaysian University, Universiti Kebangsaan Malaysia; abbreviated UKM, in chemistry science, specialized in Organic Chemistry (industrial chemistry). Currently he is working at Thamar University, faculty of education as assistant professor in organic chemistry and head of chemistry department. He got his Possessing excellent administrative, verbal and written communication skills along with effective teaching methods for inspired learning environments. Having the ability to conduct independent research, leading research projects team, and supervising undergraduate/ postgraduate students in the areas related to Organic Chemistry. His interested researches are Synthesis and production of renewable bio-based/oleochemical lubricant, Bio-modification of fats and oils, Synthesis of oleochemical compounds from biodegradable sources and Analytical method development.

References

References

Abdallah M., Guar gum as corrosion inhibitor for carbon steel in sulfuric acid solutions, Port Electrochim Acta, 22, 161-175, 2004.

Ahmed A. A., Al-mashhadani M. H., Hussain Z., Mohammed S. A., Yusop R. M., Yousif E., Inhibition of Corrosion: Mechanisms and Classifications an Overview, Al-Qadisiyah Journal of Pure Science, 251-9, 2020.

Atshan A. A., Hasan B. O., Ali M. H., Effect of Anode Type and Position on the Cathodic Protection of Carbon Steel in Sea Water, International Journal of Current Engineering and Technology, 3, 2017-2024, 2013.

Ansari R., Alikhani A. H., Application of polyaniline/nylon composites coating for corrosion protection of steel, J Coat Technol Res, 6, 221-227, 2009.

Arenas A., Bethencourt M., Botana F. J., de Damborenea J., Marcos M., Inhibition of 5083 aluminium alloy and galvanized steel by lanthanide salts, Corr Sci, 43, 157-170, 2001.

Arenas A., Conde A., de Damborenea J. J., Cerium: a suitable green corrosion inhibitor for tinplate, Corr Sci, 44, 511-520, 2002.

Bayol E., Gürten A. A., Dursun M., Kayakirilmaz K., Adsorption behavior and inhibition corrosion effect of sodium carboxymethyl cellulose on mild steel in acidic medium, Acta Physico-Chimica Sinica, 24, 2236-2243, 2008.

Bernal S., Botana F. J., Calvino J. J., Marcos M., Perez-Omil J. A., Vidal H., Lanthanide salts as alternative corrosion inhibitors, J Alloy Comp., 255, 638-641, 1995.

Bethencourt M., Botana F. J., Calvino J. J., Marcos M., Rodriguez-Chacon M. A., Lanthanide compounds as environmentally-friendly corrosion inhibitors of aluminium alloys: A review, Corr Sci, 40, 1803-1819, 1998.

Congress U. S., Office of Technology Assessment, Environmental Policy Tools, A User’s Guide, OTA-ENV-634 (Washington, DC: U.S. Government Printing Office, September 1995).

de Souza F. A., Spinelli A., Caffeic acid as a green corrosion inhibitor for mild steel, Corrosion Science, 51, 642–649, 2008.

Jung H. A., Su B. N., Keller W. J., Mehta R. G., Kinghorn A. D., Antioxidant xanthones from the pericarp of Garcinia mangostana (Mangosteen), Journal of Agricultural and Food Chemistry, 54, 2077-2082, 2006.

Kesavan D., Gopiraman M., Sulochana N., Green Inhibitors for Corrosion of Metals: A Review, Che Sci Rev Lett, 1, 1-8, 2012.

Maji K. D., Sing I., Kumar R., Trans Ind Inst Metals 29:37441. McCafferty E (1979) Thermodynamic aspects of the crevice corrosion of iron in chromate/chloride solutions, J Electrochem Soc, 126, 385, 1976.

McCafferty E., Thermodynamic aspects of the crevice corrosion of iron in chromate/chloride solutions, Corros Sci, 29, 391, 1989.

Mobin M., Khan M. A., Parveen M., Inhibition of mild steel corrosion in acidic medium using starch and surfactants additives, J Appl Poly Sci, 121, 1558-1565, 2011.

Quraishi M. A., Yadav D. K., Ahamad I., Green approach to corrosion inhibition by black pepper extract in hydrochloric acid solution, Open Corrosion Journal, 2, 56–60, 2009.

Shehata O. S., Korshed L. A., Attia A., Corrosion Inhibitors, Principles and Recent Applications, Green Corrosion Inhibitors, Past, Present, and Future, peer-reviewed chapter, 121-142, 2017.

Toxicological profile for chromium, agency for toxic substance, US Public Health Service, Report, no. ATSDR/TP-88/10, 1989.

Twite R. L., Bierwagen G. P., Review of alternatives to chromate for corrosion protection of aluminum aerospace alloys, Prog Org Coat, 33, 91-100, 1998.

Umoren S. A., Ogbobe O., Igwe I. O., Ebenso E. E., Inhibition of mild steel corrosion in acidic medium using synthetic and naturally occurring polymers and synergistic halide additives, Corr Sci, 50, 1998-2006, 2008.

Umoren S. A., Obot1 I. B., Ebenso E. E., Okafor P. C., Eco-friendly Inhibitors from Naturally occurring exudate gums for aluminium corrosion inhibition in acidic medium, Port Electrochim Acta, 26, 267-282, 2008.

Umoren S. A., Solomon M. M., Udosoro I. I., Udoh A. P., Synergistic and antagonistic effects between halide ions and carboxymethyl cellulose for the corrosion inhibition of mild steel in sulphuric acid solution. Cellulose 17:635-648, 2010.

Vinod Kumar K. P., Narayanan Pillai M. S., Rexin Thusnavis G., Pericarp of the fruit of garcinia mangostana as corrosion inhibitor for mild steel in hydrochloric acid medium, Portugaliae Electrochimica Acta, 28, 373-383, 2010.

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Published

2020-06-28

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Vol. 1 No. 1 (2020)

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How to Cite

Eco-friendly green corrosion inhibitors in overview . (2020). Research Journal in Advanced Sciences, 1(1), 7-16. https://doi.org/10.6084/rjas.v1i1.125