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23-05-2020 | Original Research

Vanillin modified chitosan as a new bio-inspired corrosion inhibitor for carbon steel in oil-well acidizing relevant to petroleum industry

Authors: M. A. Quraishi, K. R. Ansari, Dheeraj Singh Chauhan, Saviour A. Umoren, M. A. J. Mazumder

Published in: Cellulose | Issue 11/2020

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Abstract

Due to strict environmental regulations, the use of toxic chemicals as corrosion inhibitors for the oil-well acidizing is restricted. Environmentally benign Vanillin-modified chitosan (Van-Cht) is synthesized using a microwave-induced green synthetic protocol and thoroughly characterized by FTIR and NMR spectroscopy. The inhibitor has been evaluated for the first time for carbon steel in 15% HCl. The corrosion inhibition performance was assayed using weight loss and electrochemical methods complemented with the surface analysis of the corroded carbon steel samples without and with the inhibitor immersed in the corrosive medium. Results obtained showed that the Van-Cht acted by adsorption on the surface of carbon steel to inhibit corrosion and exhibited a mixed-type behavior with cathodic predominance. The adsorption of Van-Cht on the carbon steel surface obeyed the Langmuir isotherm. The excellent corrosion inhibition efficiency of > 98% observed at a concentration of 500 mg L⁻¹. Surface analysis using SEM and FTIR-ATR measurements supported the adsorption of Van-Cht inhibitor on the carbon steel surface. The pKa analysis proved that the inhibitor Van-Cht exists mainly in the protonated form at the experimental pH. The density functional theory (DFT) analysis proved that the protonated form of the Van-Cht inhibitor behaves better compared to that of the Van and neutral Van-Cht.

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Abdel Ghany N, Shehata M, Saleh R, El Hosary A (2017) Novel corrosion inhibitors for acidizing oil wells. Mater Corros 68(3):355–360

Adam MSS, El-Lateef HMA, Soliman KA (2018) Anionic oxide-vanadium Schiff base amino acid complexes as potent inhibitors and as effective catalysts for sulfides oxidation: experimental studies complemented with quantum chemical calculations. J Mol Liq 250:307–322

Ansari KR, Quraishi MA (2014) Bis-Schiff bases of isatin as new and environmentally benign corrosion inhibitor for mild steel. J Ind Eng Chem 20(5):2819–2829

Ansari KR, Quraishi MA, Singh A (2014) Schiff’s base of pyridyl substituted triazoles as new and effective corrosion inhibitors for mild steel in hydrochloric acid solution. Corros Sci 79:5–15

Azzaoui K, Mejdoubi E, Jodeh S, Lamhamdi A, Rodriguez-Castellón E, Algarra M, Zarrouk A, Errich A, Salghi R, Lgaz H (2017) Eco friendly green inhibitor Gum Arabic (GA) for the corrosion control of mild steel in hydrochloric acid medium. Corros Sci 129:70–81

Bello M, Ochoa N, Balsamo V, Lopez-Carrasquero F, Coll S, Monsalve A, González G (2010) Modified cassava starches as corrosion inhibitors of carbon steel: an electrochemical and morphological approach. Carbohydr Polym 82(3):561–568

Chauhan DS, Sorour AA, Quraishi MA (2016) An overview of expired drugs as novel corrosion inhibitors for metals and alloys. Int J Chem Pharm Sci 4(12):680–691

Chauhan DS, Ansari KR, Sorour AA, Quraishi MA, Lgaz H, Salghi R (2018a) Thiosemicarbazide and thiocarbohydrazide functionalized chitosan as ecofriendly corrosion inhibitors for carbon steel in hydrochloric acid solution. Int J Biol Macromol 107:1747–1757PubMed

Chauhan DS, Srivastava V, Joshi PG, Quraishi MA (2018b) PEG cross-linked Chitosan: a biomacromolecule as corrosion inhibitor for sugar industry. Int J Ind Chem 9:363–377

Chauhan DS, Kumar AM, Quraishi MA (2019a) Hexamethylenediamine functionalized glucose as a new and environmentally benign corrosion inhibitor for copper. Chem Eng Res Des 150:99–115

Chauhan DS, Quraishi MA, Carrière C, Seyeux A, Marcus P, Singh A (2019b) Electrochemical, ToF-SIMS and computational studies of 4-amino-5-methyl-4H-1, 2, 4-triazole-3-thiol as a novel corrosion inhibitor for copper in 3.5% NaCl. J Mol Liq 289:111113

Chauhan DS, Quraishi MA, Sorour AA, Saha SK, Banerjee P (2019c) Triazole-modified chitosan: a biomacromolecule as a new environmentally benign corrosion inhibitor for carbon steel in a hydrochloric acid solution. RSC Adv 9(26):14990–15003

Chauhan DS, Mouaden KE, Quraishi MA, Bazzi L (2020) Aminotriazolethiol-functionalized chitosan as a macromolecule-based bioinspired corrosion inhibitor for surface protection of stainless steel in 3.5% NaCl. Int J Biol Macromol 152:234–241PubMed

Cheng S, Chen S, Liu T, Chang X, Yin Y (2007a) Carboxymenthylchitosan as an ecofriendly inhibitor for mild steel in 1 M HCl. Mater Lett 61(14–15):3276–3280

Cheng S, Chen S, Liu T, Chang X, Yin Y (2007b) Carboxymethylchitosan + Cu2 + mixture as an inhibitor used for mild steel in 1 M HCl. Electrochim Acta 52(19):5932–5938

Cizek A (1994) Corrosion inhibitors used in acidizing. Mater Perform (United States) 33(1)

Crowe C, Masmonteil J, Thomas R (1992) Trends in matrix acidizing. Oilfield Rev 4(4):22–40

de Araújo Macedo RGM, do Nascimento Marques N, Tonholo J, de Carvalho Balaban R (2019) Water-soluble carboxymethylchitosan used as corrosion inhibitor for carbon steel in saline medium. Carbohydr Polym 205:371–376

Dohare P, Chauhan DS, Hammouti B, Quraishi MA (2017a) Experimental and DFT investigation on the corrosion inhibition behavior of expired drug lumerax on mild steel in hydrochloric acid. Anal Bioanal Electrochem 9:762

Dohare P, Chauhan DS, Sorour AA, Quraishi MA (2017b) DFT and experimental studies on the inhibition potentials of expired Tramadol drug on mild steel corrosion in hydrochloric acid. Mater Discovery 9:30–41

Dutta PK, Dutta J, Tripathi V (2004) Chitin and chitosan: chemistry, properties and applications. J Sci Ind Res 63(1):23–31

El Mouaden K, El Ibrahimi B, Oukhrib R, Bazzi L, Hammouti B, Jbara O, Tara A, Chauhan DS, Quraishi MA (2018) Chitosan polymer as a green corrosion inhibitor for copper in sulfide-containing synthetic seawater. Int J Biol Macromol 119:1311–1323PubMed

El-Haddad MN (2013) Chitosan as a green inhibitor for copper corrosion in acidic medium. Int J Biol Macromol 55:142–149PubMed

El-Hajjaji F, Messali M, Aljuhani A, Aouad M, Hammouti B, Belghiti M, Chauhan DS, Quraishi MA (2018) Pyridazinium-based ionic liquids as novel and green corrosion inhibitors of carbon steel in acid medium: electrochemical and molecular dynamics simulation studies. J Mol Liq 249:997–1008

El-Lateef HMA, Ismael M, Mohamed IM (2015) Novel Schiff base amino acid as corrosion inhibitors for carbon steel in CO2-saturated 3.5% NaCl solution: experimental and computational study. Corros Rev 33(1–2):77–97

Elshaarawy RF, Mustafa FH, Herbst A, Farag AE, Janiak C (2016) Surface functionalization of chitosan isolated from shrimp shells, using salicylaldehyde ionic liquids in exploration for novel economic and ecofriendly antibiofoulants. RSC Adv 6(25):20901–20915

Fadil M, Chauhan DS, Quraishi MA (2018) Smart coating based on urea-formaldehyde microcapsules loaded with benzotriazole for corrosion protection of mild steel in 3.5% NaCl. Russ J Appl Chem 91(10):1721–1728

Fernandes Queiroz M, Melo KRT, Sabry DA, Sassaki GL, Rocha HAO (2015) Does the use of chitosan contribute to oxalate kidney stone formation? Mar Drugs 13(1):141–158

Fiori-Bimbi MV, Alvarez PE, Vaca H, Gervasi CA (2015) Corrosion inhibition of mild steel in HCl solution by pectin. Corros Sci 92:192–199

Frenier W, Growcock F, Lopp V (1988) Mechanisms of corrosion inhibitors used in acidizing wells. SPE Prod Eng 3(04):584–590

Gece G (2008) The use of quantum chemical methods in corrosion inhibitor studies. Corros Sci 50(11):2981–2992

Geerlings P, De Proft F, Langenaeker W (2003) Conceptual density functional theory. Chem Rev 103(5):1793–1874PubMed

Gerengi H, Mielniczek M, Gece GK, Solomon MM (2016) Experimental and quantum chemical evaluation of 8-hydroxyquinoline as a corrosion inhibitor for copper in 01 M HCl. Ind Eng Chem Res 55(36):9614–9624

Gupta NK, Verma C, Quraishi MA, Mukherjee AK (2016) Schiff’s bases derived from l-lysine and aromatic aldehydes as green corrosion inhibitors for mild steel: experimental and theoretical studies. J Mol Liq 215:47–57

Gupta NK, Joshi PG, Srivastava V, Quraishi MA (2018) Chitosan: a macromolecule as green corrosion inhibitor for mild steel in sulfamic acid useful for sugar industry. Int J Biol Macromol 106:704–711PubMed

Haque J, Ansari KR, Srivastava V, Quraishi MA, Obot I (2017) Pyrimidine derivatives as novel acidizing corrosion inhibitors for N80 steel useful for petroleum industry: a combined experimental and theoretical approach. J Ind Eng Chem 49:176–188

Haque J, Srivastava V, Chauhan DS, Lgaz H, Quraishi MA (2018) Microwave-induced synthesis of chitosan schiff bases and their application as novel and green corrosion inhibitors: experimental and theoretical approach. ACS Omega 3(5):5654–5668PubMedPubMedCentral

Huang H, Wang Z, Gong Y, Gao F, Luo Z, Zhang S, Li H (2017) Water soluble corrosion inhibitors for copper in 3.5 wt% sodium chloride solution. Corros Sci 123:339–350

Ituen E, Akaranta O, James A (2017) Electrochemical and anticorrosion properties of 5-hydroxytryptophan on mild steel in a simulated well-acidizing fluid. J Taibah Univ Sci 11(5):788–800

Ituen E, Akaranta O, James A (2019a) Corrosion inhibition characteristics of 2-[(E)-[5-methoxy-1-[4-(trifluoromethyl) phenyl] pentylidene] amino] oxyethanamine on steel in simulated oilfield acidizing solution. Journal of King Saud University-Engineering Sciences 31(2):191–199

Ituen EB, Solomon MM, Umoren SA, Akaranta O (2019b) Corrosion inhibition by amitriptyline and amitriptyline based formulations for steels in simulated pickling and acidizing media. J Petrol Sci Eng 174:984–996

Karthik R, Muthukrishnan P, Chen S-M, Jeyaprabha B, Prakash P (2015) Anti-corrosion inhibition of mild steel in 1 M hydrochloric acid solution by using tiliacoraaccuminata leaves extract. Int J Electrochem Sci 10:3707–3725

Khaled K (2008) Application of electrochemical frequency modulation for monitoring corrosion and corrosion inhibition of iron by some indole derivatives in molar hydrochloric acid. Mater Chem Phys 112(1):290–300

Krishnegowda PM, Venkatesha VT, Krishnegowda PKM, Shivayogiraju SB (2013) Acalypha torta leaf extract as green corrosion inhibitor for mild steel in hydrochloric acid solution. Ind Eng Chem Res 52(2):722–728

Kuş E, Mansfeld F (2006) An evaluation of the electrochemical frequency modulation (EFM) technique. Corros Sci 48(4):965–979

Li L, Zhang X, Lei J, He J, Zhang S, Pan F (2012) Adsorption and corrosion inhibition of Osmanthus fragran leaves extract on carbon steel. Corros Sci 63:82–90

Li X, Deng S, Xie X, Fu H (2014) Inhibition effect of bamboo leaves’ extract on steel and zinc in citric acid solution. Corros Sci 87:15–26

Mouaden KE, Chauhan DS, Quraishi MA, Bazzi L (2020) Thiocarbohydrazide-crosslinked chitosan as a bioinspired corrosion inhibitor for protection of stainless steel in 3.5% NaCl. Sustain Chem Pharm 15:100213

Muzzarelli RA (1973) Natural chelating polymers; alginic acid, chitin and chitosan. Natural chelating polymers; alginic acid, chitin and chitosan. Pergamon Press, Oxford

Obot I, Macdonald D, Gasem Z (2015) Density functional theory (DFT) as a powerful tool for designing new organic corrosion inhibitors. Part 1: an overview. Corros Sci 99:1–30

Onyeachu B, Chauhan DS, Ansari KR, Obot I, Quraishi MA, Alamri AH (2019) Hexamethylene-1, 6-bis (N–D-glucopyranosylamine) as a novel corrosion inhibitor for oil and gas industry: electrochemical and computational analysis. New J Chem 43:7282–7293

Popova A, Raicheva S, Sokolova E, Christov M (1996) Frequency dispersion of the interfacial impedance at mild steel corrosion in acid media in the presence of benzimidazole derivatives. Langmuir 12(8):2083–2089

Popova A, Sokolova E, Raicheva S, Christov M (2003) AC and DC study of the temperature effect on mild steel corrosion in acid media in the presence of benzimidazole derivatives. Corros Sci 45(1):33–58

Quraishi MA, Jamal D (2000) CAHMT—a new and eco-friendly acidizing corrosion inhibitor. Corrosion 56(10):983–985

Quraishi MA, Sardar N, Ali H (2002) A study of some new acidizing inhibitors on corrosion of N-80 alloy in 15% boiling hydrochloric acid. Corrosion 58(4):317–321

Quraishi MA, Chauhan DS, Saji VS (2020) Heterocyclic organic corrosion inhibitors: principles and applications. Elsevier, Amsterdam (ISBN: 9780128185582)

Saady A, El-Hajjaji F, Taleb M, Alaoui KI, El Biache A, Mahfoud A, Alhouari G, Hammouti B, Chauhan DS, Quraishi MA (2018) Experimental and theoretical tools for corrosion inhibition study of mild steel in aqueous hydrochloric acid solution by new indanones derivatives. Mater Discovery 12:30–42

Sashiwa H, Aiba S-I (2004) Chemically modified chitin and chitosan as biomaterials. Prog Polym Sci 29(9):887–908

Sastri VS (1998) Corrosion inhibitors: principles and applications. Wiley, Hoboken

Sastri VS (2012) Green corrosion inhibitors: theory and practice. Wiley, Hoboken

Schmitt G (1984) Application of inhibitors for acid media: report prepared for the European federation of corrosion working party on inhibitors. Br Corros J 19(4):165–176

Shekarforoush E, Mendes A, Baj V, Beeren S, Chronakis I (2017) Electrospun phospholipid fibers as micro-encapsulation and antioxidant matrices. Molecules 22(10):1708

Singh P, Quraishi MA (2016) Corrosion inhibition of mild steel using Novel Bis Schiff’s Bases as corrosion inhibitors: electrochemical and surface measurement. Measurement 86:114–124

Singh P, Ebenso EE, Olasunkanmi LO, Obot I, Quraishi MA (2016) Electrochemical, theoretical, and surface morphological studies of corrosion inhibition effect of green naphthyridine derivatives on mild steel in hydrochloric acid. J Phys Chem C 120(6):3408–3419

Singh P, Chauhan DS, Srivastava K, Srivastava V, Quraishi MA (2017) Expired atorvastatin drug as corrosion inhibitor for mild steel in hydrochloric acid solution. Int J Ind Chem 8(4):363–372

Singh P, Chauhan DS, Chauhan SS, Singh G, Quraishi MA (2019a) Bioinspired synergistic formulation from dihydropyrimdinones and iodide ions for corrosion inhibition of carbon steel in sulphuric acid. J Mol Liq 298:112051

Singh P, Chauhan DS, Chauhan SS, Singh G, Quraishi MA (2019b) Chemically modified expired Dapsone drug as environmentally benign corrosion inhibitor for mild steel in sulphuric acid useful for industrial pickling process. J Mol Liq 286:110903

Singh A, Ansari KR, Chauhan DS, Quraishi MA, Lgaz H, Chung I-M (2020) Comprehensive investigation of steel corrosion inhibition at macro/micro level by ecofriendly green corrosion inhibitor in 15% HCl medium. J Colloid Interface Sci 560:225–236PubMed

Solomon MM, Gerengi H, Kaya T, Umoren SA (2016) Performance evaluation of a chitosan/silver nanoparticles composite on St37 steel corrosion in a 15% HCl solution. ACS Sustain Chem Eng 5(1):809–820

Solomon MM, Gerengi H, Kaya T, Kaya E, Umoren SA (2017a) Synergistic inhibition of St37 steel corrosion in 15% H₂SO₄ solution by chitosan and iodide ion additives. Cellulose 24(2):931–950

Solomon MM, Gerengi H, Kaya T, Umoren SA (2017b) Enhanced corrosion inhibition effect of chitosan for St37 in 15% H₂SO₄ environment by silver nanoparticles. Int J Biol Macromol 104:638–649PubMed

Southan C, Stracz A (2013) Extracting and connecting chemical structures from text sources using chemicalize. J Cheminform 5(1):20PubMedPubMedCentral

Srivastava V, Haque J, Verma CB, Singh P, Lgaz H, Salghi R, Quraishi MA (2017) Amino acid based imidazolium zwitterions as novel and green corrosion inhibitors for mild steel: experimental, DFT and MD studies. J Mol Liq 244:340–352

Srivastava V, Chauhan DS, Joshi PG, Maruthapandian V, Sorour AA, Quraishi MA (2018) PEG-functionalized chitosan: a biological macromolecule as a novel corrosion inhibitor. ChemistrySelect 3(7):1990–1998

Sudheer, Quraishi MA (2013) Electrochemical and theoretical investigation of triazole derivatives on corrosion inhibition behavior of copper in hydrochloric acid medium. Corros Sci 70:161–169

Swain M (2012) Chemicalize. J Chem Inf Model 52(2):613–615

Umoren S, Li Y, Wang F (2010) Synergistic effect of iodide ion and polyacrylic acid on corrosion inhibition of iron in H₂SO₄ investigated by electrochemical techniques. Corros Sci 52(7):2422–2429

Umoren SA, Obot IB, Madhankumar A, Gasem ZM (2015) Performance evaluation of pectin as ecofriendly corrosion inhibitor for X60 pipeline steel in acid medium: experimental and theoretical approaches. Carbohydr Polym 124:280–291PubMed

Verma C, Ebenso EE, Bahadur I, Quraishi MA (2018) An overview on plant extracts as environmental sustainable and green corrosion inhibitors for metals and alloys in aggressive corrosive media. J Mol Liq 266:577–590

Yadav DK, Quraishi MA (2012) Electrochemical investigation of substituted pyranopyrazoles adsorption on mild steel in acid solution. Ind Eng Chem Res 51(24):8194–8210

Yadav DK, Maiti B, Quraishi MA (2010) Electrochemical and quantum chemical studies of 3, 4-dihydropyrimidin-2 (1H)-ones as corrosion inhibitors for mild steel in hydrochloric acid solution. Corros Sci 52(11):3586–3598

Yadav DK, Chauhan DS, Ahamad I, Quraishi MA (2013) Electrochemical behavior of steel/acid interface: adsorption and inhibition effect of oligomeric aniline. RSC Adv 3(2):632–646

Title: Vanillin modified chitosan as a new bio-inspired corrosion inhibitor for carbon steel in oil-well acidizing relevant to petroleum industry
Authors: M. A. Quraishi
K. R. Ansari
Dheeraj Singh Chauhan
Saviour A. Umoren
M. A. J. Mazumder
Publication date: 23-05-2020
Publisher: Springer Netherlands
Published in: Cellulose / Issue 11/2020
Print ISSN: 0969-0239
Electronic ISSN: 1572-882X
DOI: https://doi.org/10.1007/s10570-020-03239-x

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