WATERMELON PEEL EXTRACT AS GREEN CORROSION INHIBITOR FOR ST-37 CARBON STEEL IN SEAWATER
DOI:
https://doi.org/10.22441/ijimeam.v3i3.13759Kata Kunci:
carbon steel, corrosion rate, inhibition efficiency, watermelon peel extractAbstrak
Corrosion engineering has taken great interest in many industries that required high cost management to overcome the serious problems. This work has investigated the role of watermelon peel extract as green inhibitor to protect carbon steel in seawater. This investigation has studied the corrosion rate and inhibition efficiency applying weight loss method. The laboratory result shows the optimum inhibition efficiency found to be 71.64% at 5% inhibitor concentration in 100 ml seawater at room temperature. The effects of temperature and immersion time on inhibition efficiency have also been examined. This study has used Arrhenius equation based on activation energy to determine type of adsorption encountered with corrosion process. The result shows a chemical adsorption justified by its high adsorption heat and strengthened by FTIR and UV-Vis examinations. The phytochemical examination of watermelon peel extract gives positive response to flavonoid, alkaloid, and saponin. The finding is useful for many industries encountered with carbon steel corrosion in corrosive medium using green inhibitor.
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Abu-Dalo, M. Al-Rawashdeh, N.A.F. & Ababneh, A. Evaluating the performance of sulfonated Kraft lignin agent as corrosion inhibitor for iron-based materials in water distribution systems. Desalination. 2013; 313: 105 – 114.
Akbarzadeh, E. Ibrahim, M. & Rahim, A.A. Corrosion inhibition of mild steel in near neutral solution by Kraft and Soda lignins extracted from oil palm empty fruit bunch. Int. J. Electrochem. Sci. 2011;6:5396 – 5416 .
Fares, M.M. Maayta, A.K. & Al-Mustafa, J.A. Corrosion inhibition of iota-carrageenan natural polymer on aluminum in presence of zwitterion mediator in HCl media. Corrosion Sci. 2012;65:223 – 230.
Odewunmi, N.A. Umoren, S.A. & Gasem, Z.M. Utilization of watermelon rind extract as a green corrosion inhibitor for mild steel in acidic media. J. Industrial Eng. Chem. 2015;21:239 – 247.
Sakhri, A. Perrin, F.X. Benaboura, A. Aragon, E. & Lamouri, S. Corrosion protection of steel by sulfo-doped polyaniline-pigmented coating. Progress in Organic Coatings. 2011;72: 473 – 9.
Suedile, F. Robert, F. Roos, C. & Lebrini, M. Corrosion inhibition of zinc by Mansoa alliacea plant extract in sodium chloride media: extraction, characterization and electrochemical studies. Electrochim. Acta. 2014: 133: 631 – 8.
Alva, S. Hua, T.I Nizar, U.K. Wahyudi, H. & Sundari, R. Sol gel method for synthesis of semiconducting ferrite and the study of FTIR, DTA, SEM and CV. IOP Conf. Series: Materials Science & Engineering. 2018; 343: 012002.
Alva, S. Sundari, R. Wijaya, H.F. Majlan, E.H. Sudaryanto, Arwati, I.G.A. & Sebayang, D. Preliminary study on aluminum-air battery applying disposable soft drink cans and Arabic gum polymer. IOP Conf. Series: Materials Science & Engineering. 2017; 237: 012039.
Araujo Macedo, R.G.M. Marques, N.N. Tonholo, J. & Balaban, R.C. Water-soluble carboxy methyl chitosan used as corrosion inhibitor for carbon steel in saline medium. Carbohydrate Polymers. 2019; 205: 371 – 6.
Deyab, M.A. Efficiency of cationic surfactant as microbial corrosion inhibitor for carbon steel in oilfield saline water. J. Molecular Liquids. 2018; 255: 550 – 5.
Obot, I.B. Onyeachu, I.B. & Kumar, A.M. Sodium alginate: A promising biopolymer for corrosion protection of APIX60 high strength carbon steel in saline medium. Carbohydrate Polymers. 2017; 178: 200 – 8.
Chen, S. Deng, H. Zhao, Yudi. Lu, S. Zhao, Yao. ‘et al’. The effects of Methanococcus maripaludis on the corrosion behavior of EH40 steel in seawater. Bioelectrochem. 2021;140: 107824.
Zu, H. Li, X. Lu, X. Wang, J. Hu, Z. & Ma, X. Efficiency of Gemini surfactant containing semi-rigid spacer as microbial corrosion inhibitor for carbon steel in simulated seawater. Bioelectrochem. 2021;140: 107809.
Prihati, S.T. Effisiensi penggunaan ekstrak kulit semangka (Citrullus lanatus) sebagai inhibitor organic terhadap laju korosi baja ST-37 dalam medium air laut (Efficiency of watermelon peel extract (Citrullus lanatus) application as organic inhibitor on corrosion rate of ST-37 steel in seawater medium). Thesis, Faculty of Mathematics and Science, Universitas Negeri Padang. 2017.
Odewunmi, N.A. Umoren, S.A. & Gasem, Z.M. Watermelon waste products as green corrosion inhibitors for mild steel in HCl solution. J. Environ. Chem. Eng. 2014; 3: 286 – 296.
Petchiammal, A. Deepa Rani, P. Selvaraj, S. & Kalirajan, K. Corrosion protection of zinc in natural sea water using Citrullus vulgaris peel as an inhibitor. Res. J. Chem. Sci. 2012; 2: 24 – 34.
Bagga, M.K. Gadi, R. Yadav, O.S. Kumar, R. Chopra, R. & Singh, G. Investigation of phytochemical components and corrosion inhibition property of Ficus racemosa stem extract on mild steel in H2SO4 medium. J. Environ. Chem. Eng. 2016; 4: 4699 – 4707.
Altwaig, A.M. Khouri, S.J. Al-luaibi, S. Lehmann, R. Drucker, H. & Vogt, C. The role of alkali extracted lignin as corrosion inhibitor. J. Mater. Environ. Sci. 2011; 2: 259 – 270.
Sharfawati, C.S. Aziz, M. Sundari, R. Polarization behavior of carbon steel corrosion in strong acid media in the presence of methyl thiophene inhibitor. Ind. J. Sci. Res. Tech. 2014; 2: 25 – 30.
Doner, A. Solmaz, R. Ozcan, M. kardas , G. Experimental and theoretical studies of thiazoles as corrosion inhibitors for mild steel in sulfuric acid solution. Corrosion Sci. 2011; 53: 2902 – 2913.
Aljourani, J. Golozar, M.A. & Raessi, K. The inhibition of carbon steel corrosion in hydrochloric and sulfuric acid media using some benzimidazole derivatives. Mater. Chem. Phys. 2010; 121: 320 – 5.
Alaneme, K.K. & Sunday, J.O. Corrosion inhibition performance of lignin extract of sun flower (Tithonia diversifolia) medium carbon low alloy steel immersed in H2SO4 solution. Leonardo J. Sci. 2012; 20: 59 – 70.
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