Inhibition of corrosion of L 80 alloy pipeline carrying simulated oil well water by succinic acid

Arjunan Krishnaveni; Nilavan Anitha; Veerapandian Velkannan; Duraisamy Sarmina; Thangaiyan Shanthi; Gurmeet Singh; Hashem Abdulhameed Al; Susai Rajendran; Časlav Lačnjevac

doi:10.5937/zasmat2204454K

Authors

Arjunan Krishnaveni Yadava College, Department of Chemistry, Madurai, India + Madurai Kamaraj University, Madurai, India Author
Nilavan Anitha St. Antony's College of Arts and Sciences for Women, Department of Chemistry, Corrosion Research Centre, Dindigul, India Author
Veerapandian Velkannan Thiagarajar College of Engineering, Department of Chemistry, Thiruparankundram, Madurai, Tamil Nadu, India Author
Duraisamy Sarmina Namakkal Kavignar Ramalingam Government Arts College for Women, Department of Chemistry, Namakkal, India Author
Thangaiyan Shanthi Arasu College of Arts and Sciences for Women, Department of Chemistry, Karur, India Author
Gurmeet Singh Pondicherry University, Puducherry, India Author
Hashem Abdulhameed Al Kuwait Institute for Scientific Research, Petroleum Research Centre, Kuwait City, Kuwait Author
Susai Rajendran St. Antony's College of Arts and Sciences for Women, Department of Chemistry, Corrosion Research Centre, Dindigul, India + Pondicherry University, Centre for Nanoscience and Technology, Puducherry, India Author
Časlav Lačnjevac University of Belgrade, Faculty of Agriculture, Serbia Author

DOI:

https://doi.org/10.5937/zasmat2204454K

Keywords:

inhibition of corrosion, L80 alloy, pipeline carrying simulated oil well water, succinic acid, electrochemical studies

Abstract

Simulated oil well water (SOWW) is conceded out by pipelines made of several alloys, for instance mild steel L80. These alloys may simulated oil well water undergo corrosion owing to presence of various aggressive ions present in SOWW. To prevent this several inhibitors have been used. Inhibition of corrosion of L80 alloy pipeline carrying simulated oil well water by succinic acid has been evaluated by electrochemical studies such as polarization study and AC impedance spectra (EIS). Polarisation study reveals that in the presence of inhibitor linear polarization resistance increases and corrosion current decreases. AC impedance spectra reveal that in presence of succinic acid, RT value increases, impedance value increases, phase angle increases and Cdl value decreases. The present study reveals that when succinic acid is added to simulated oil well water, the corrosion resistance of L80 alloy increases. It implies that succinic acid may be added to simulated oil well water flowing through pipe line made of L80 alloy.

References

Adel, A.H., Abd, E.F.S., Amal, T.H. (2020) Electrochemical behavior for corrosion protection of mild steel (MS) in 1M HCl medium by using lidocaine drug as an inhibitor.Zaštita materijala, vol. 61, br. 4, str. 286-305

https://doi.org/10.5937/zasmat2004286A

Al-Nami, S.Y., Fouda, A.S. (2020) Corrosion inhibition effect and adsorption activities of methanolic myrrh extract for cu in 2M HNO3.Int. J. Electrochemical Sci., 15(2), 1187-1205

https://doi.org/10.20964/2020.02.23

Aremu, M.O., Arinkoola, A.O., Salam, K.K., Ogunmola, E.O. (2017) Potential of local pH control additives for corrosion inhibition in water base drilling fluids.Petroleum and Coal, 59(5), 611-619

Arockiaraj, M.J.V.D., Kirubavathy, S.J., Al-Hashem, A., Santhammal, R.S., Joany, R.M., Lačnjevac, Č. (2021) Inhibition of corrosion of mild steel by an alcoholic extract of a seaweed Sargassum muticum.Zaštita materijala, vol. 62, br. 4, str. 304-315

https://doi.org/10.5937/zasmat2104304J

Bai, Y., Shen, G., Qin, Q., Xu, J., Sun, C. (2021) Effect of thiourea imidazoline quaternary ammonium salt corrosion inhibitor on corrosion of X80 pipeline steel.J. Chinese Society of Corrosion and Protection, 41(1), 1005-4537

Belghiti, M.E., Ouadi, Y.E., Echihi, S., Bentiss, F., Dafali, A. (2020) Anticorrosive properties of two 3,5disubstituted-4-amino-1,2,4-triazole derivatives on copper in hydrochloric acid environment: Ac impedance, thermodynamic and computational investigations.Surfaces and Interfaces, 21, 100692

https://doi.org/10.1016/j.surfin.2020.100692

Chauhan, D.S., Quraishi, M.A., Nik, W.B.W., Srivastava, V. (2021) Triazines as a potential class of corrosion inhibitors: Present scenario, challenges and future perspectives.J. Molecular Liquids, 321, 114747

https://doi.org/10.1016/j.molliq.2020.114747

Dorothy, R., Sasilatha, T., Rajendran, S. (2021) Corrosion resistance of mild steel (Hull plate) in sea water in the presence of a coating of an oil extract of plant materials.Int. J. Corro. Scale Inhib., 10(2), 676-699

https://doi.org/10.17675/2305-6894-2021-10-2-13

El-Aziz, E.F.A., Ibrahem, E.F., Awad, S.E. (2019) Esomeprazole Magnesium Trihydrate drug as a potential non-toxic corrosion inhibitor for mild steel in acidic media.Zaštita materijala, vol. 60, br. 3, str. 245-258

https://doi.org/10.5937/zasmat1903245E

Geethanjali, R., Subhashini, S. (2015) Investigation of corrosion inhibition efficiency of somesynthesized water soluble terpolymers on N-80 steel in HCl, NaCl and simulated oil well water.Portugaliae Electroche., Acta, 33(2), 85-104

https://doi.org/10.4152/pea.201502085

Hajar, H.M., Zulkifli, F., Mohd, S.M.G., Wan, N.W.B. (2016) Protection against corrosion of aluminum alloy in marine environment by Laws on iainermis.Int. J. Corro., e-4891803

https://doi.org/10.1155/2016/4891803

Haque, J., Verma, C., Nik, W.B.W. (2021) Corrosion inhibition of mild steel in 1M HCl using environmentally benign Thevetiaperuviana flower extracts.Sustainable Chemistry and Pharmacy, 19, 100354, 1-13

https://doi.org/10.1016/j.scp.2020.100354

Ikhmal, W.M.K.W.M., Maria, M.F.M., Rafizah, W.A.W., Norsani, W.N.W.M., Sabri, M.G.M. (2019) Corrosion inhibition of mild steel in seawater through green approach using Leucaenaleucocephala leaves extract.Int. J. Corro. Scale Inhib., 8(3), 628-643

https://doi.org/10.17675/2305-6894-2019-8-3-12

Jessima, S.J.H.M., Berisha, A., Srikandan, S.S., Subhashini, S. (2020) Preparation, characterization and evaluation of corrosion inhibition efficiency of sodium lauryl sulfate modified chitosan for mild steel in the acid pickling process.J. Molecular Liquids, 320, 114382

https://doi.org/10.1016/j.molliq.2020.114382

Joycee, S.C., Raja, A.S., Amalraj, A.S., Rajendran, S. (2021) Inhibition of corrosion of mild steel pipeline carrying simulated oil well water by Allium sativum (Garlic) extract.Int. J. Corro. Scale Inhib., 10(3), 943-960

https://doi.org/10.17675/2305-6894-2021-10-3-8

Joycee, S.C., Raja, A.S., Amalraj, A.S., Rajendran, S. (2021) Inhibition of corrosion of mild steel pipeline carrying simulated oil well water by Allium sativum (Garlic) extract.Int. J. Corro. Scale Inhib., 10(3), 943-960

https://doi.org/10.17675/2305-6894-2021-10-3-8

Kavitha, K., Sherine, H.B., Rajendran, S. (2021) Anticorrosive properties of an aqueous extract of chrysanthemum indicum flower.Int. J. Corro. Scale Inhib., 10(2), 783-800

https://doi.org/10.17675/2305-6894-2021-10-2-19

Kavitha, K., Benitasherine, H., Rajendran, S. (2021) Cardiospermum halicacabum leaves extract as a green corrosion inhibitor for mild steel in simulated oil well water medium.Int. J. Corro. Scale Inhib., 10(4), 1646-1660

https://doi.org/10.17675/2305-6894-2021-10-4-17

Mary, C.A.C., Jeyasundari, J., Banu, V.R.N., Kumaran, S.S., Regis, A.P.P. (2020) Corrosion behavior of orthodontic wires in artificial saliva with presence of beverage (Book Chapter). in: Nanotechnology in the Beverage Industry: Fundamentals and Applications, p.471-504

https://doi.org/10.1016/B978-0-12-819941-1.00016-X

Nik, W.B.W., Zulkifli, M.F., Rosliza, R., Ghazali, M.J., Khaled, K.F. (2011) Potential of honey as corrosion inhibitor for aluminium alloy in seawater.World Appl. Sci. J., 14(2), 215-220

Nik, W.B.W., Sulaiman, O., Giap, S.G., Rosliza, R. (2010) Evaluation of inhibitive action of sodium benzoate on corrosion behaviour of AA6063 in seawater.Int. J. Tech., 1(1), 20-28

Prabha, A.S., Kavitha, K., Shrine, H.B., Rajendran, S. (2020) Inhibition of corrosion of mild steel in simulated oil well water by an aqueous extract of Andrographis paniculata.Indian J. Che. Tech., 27(6), 452-460

Praveena, J.J.M., Clara, J.A., Rajendran, S.S., Amalraj, A.J. (2021) Inhibition of corrosion of mild steel in well water by an aqueous extract of soapnut (Sapindus Trifoliatus).Zaštita materijala, vol. 62, br. 4, str. 277-290

https://doi.org/10.5937/zasmat2104277P

Shanthy, P., Thangakani, J.A., Karthika, S., Rajendran, S., Jeyasundari, J. (2021) Corrosion inhibition by an aqueous extract of ervatamia divaricata.Int. J. Corro. Scale Inhib., 10(1), 331-348

https://doi.org/10.17675/2305-6894-2021-10-1-19

Wan, N.W.B., Hajar, H.M., Suriani, M.J., Sabri, M.G.M., Ghazali, M.J. (2017) Development of anticorrosive paint incorporated with henna extract as a natural inhibitor.J. Mech. Eng. Sci., 11(4), 3179-3188

https://doi.org/10.15282/jmes.11.4.2017.20.0286

Zeng, D., Dong, B., Zhang, S., Yu, H., Sun, Y. (2022) Annular corrosion risk analysis of gas injection in CO2 flooding and development of oil-based annulus protection fluid.J. Petroleum Sci. Eng., 208, 109526

https://doi.org/10.1016/j.petrol.2021.109526

Zhang, J., Wang, J., Zhu, F., Du, M. (2015) Investigation of inhibition properties of sophorolipids for X65 steel corrosion in simulated oilfield produced water saturated with carbon dioxide.Indust. Eng. Chemistry Resea., 54(19), 5197-5

https://doi.org/10.1021/ie5044055

Zhao, J.S., Ju, Y.J., Tang, M.R., Chen, R.H. (2018) Experimental study on the corrosion behavior of produced fluid on J55 steel during CO2 flooding.Key Eng. Mater., 773, 179-183

https://doi.org/10.4028/www.scientific.net/KEM.773.179

Zulkifli, F., Ali, N., Yusof, M.S.M., Khairul, W.M., Rahamathullah, R., Isa, M.I.N., Wan, N.W.B. (2017) The effect of concentration of Lawsoniainermis as a corrosion inhibitor for aluminum alloy in seawater.Adv. Phy. Chem., 35, e-8521623

https://doi.org/10.1155/2017/8521623