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Iron-reducing bacteria (IRB) seek to unravel iron corrosion for oil and gas steel pipeline failure. IRB continued to be dominating the microbiological corrosion of iron structures in steel by deteriorating steel surface via Fe(III) reduction. The mechanisms by IRB mediate Fe(III) reduction into Fe(II) for bacterial respiration to contribute to iron steel corrosion. However, the complexity of corrosion is not fully comprehended. It remains controversial due to the corrosion mechanisms proposed by IRB that may induce or inhibit corrosion when engaged with microbial biofilm. In this brief review, understanding microbiological corrosion mechanisms associated with IRB interactions may better understand microbiological corrosion and derive corrosion control.
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Tom
Strony
1355--1358
Opis fizyczny
Bibliogr. 32 poz., rys., wzory
Twórcy
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
autor
- Universiti Malaysia Kelantan, Faculty of Bioengineering and Technology, 17600 Jeli Kelantan, Malaysia
Bibliografia
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- [2] D. Enning, J. Garrelfs J, Appl. Environ. Microbiol. 80 (4), 1226-1236 (2014).
- [3] L.K. Herrara, H.A. Videla, Int. Biodeterior. Biodegradation. 63 (7), 891-895 (2009).
- [4] S.R.A. Saupi, M.A. Sulaiman, M.N. Masri, Journal of Tropical Resources and Sustainable Science. 3, 14-18.
- [5] S.R. Ahmad Saupi, N.A.H. Abdul Haris, M.N. Masri, M.A. Sulaiman, Materials Science Forum. 840, 309-314 (2016).
- [6] M.N. Masri, M.F. Samsudin, M.A. Sulaiman, M. Mohamed, M.F. Mohd Amin, Key Engineering Materials. 694, 172-176 (2016).
- [7] S.R.A. Saupi, N.A.H.A. Haris, M.N. Masri, M.A. Sulaiman, M.B.A. Bakar, Mater. Sci. Forum. 840, 309-3 (2016).
- [8] M.N. Masri, A. Hamid, M. Mohamed, M. Mohamad, S.A. Sobri, IOP Conference Series: Earth and Environmental Science. 765 (1), 012088.
- [9] D. Blackwood, Corros. Mater. Degrad. 1 (1), 59-76 (2018).
- [10] N.A.H.A. Haris, A.R.S. Fatimah, M.A. Sulaiman, M.N. Masri, J. Trop. Resour. Sustain. Sci. 3(1), 29-33 (2015).
- [11] R. Javaherdashti, Eng. Mater. Processes. Springer, Cham. (2017)
- [12] S. Kato, Microb. Biotechnol. 9 (2), 141-148 (2016).
- [13] T. Martial, J.S. Beckler, E. Carey, J.L. Burns, C.M. Fennessey, T.J. Dichristina. J. Inorg. Biochem. 101 (11-12), 1760-67 (2007).
- [14] J. Philips, N. Van den Driessche, K. De Paepe, A. Prévoteau, J.A. Gralnick, J.B.A. Arends, K. Rabaey. Appl. Environ. Microbiol. 84 (20), 1-19 (2018).
- [15] A. Ibrahim, K. Hawboldt, C. Bottaro, F. Khan, Corros. Eng. Sci. Technol. 53 (8), 549-563 (2018).
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- [17] S. Pirbadian, S.E. Barchinger, K.M. Leung, H.S. Byun, Y. Jangir, R.A. Bouhenni, et al. Proc Natl Acad Sci USA. 111, 12883-12888 (2014).
- [18] E.E Roden, A. Kappler, I. Bauer, J. Jiang, A. Paul, R. Stoesser, H. Konishi, H.F. Xu, Nat. Geosci. 3, 417-421 (2010).
- [19] M.E. Hernandez, A. Kappler, D.K. Newman, Appl. Environ. Microbiol. 70, 921-928 (2004).
- [20] K. Richter, M. Schicklberger, J. Gescher, Appl. Environ. Microbiol. 78, 913-921 (2012).
- [21] J. Starosvetsky, R. Kamari, Y. Farber, D. Bilanović, R. Armon, Corros. Sci. 102, 446-454 (2016).
- [22] C. Cote, O. Rosas, R. Basseguy, Corros. Sci. 94, 104-113 (2015).
- [23] S.J. Salgar-Chaparro, A. Darwin, A.H. Kaksonen, L.L. Machuca. Sci. Rep. 10 (1), 1-15 (2020).
- [24] L.D. Young, W.C. Kim, J.G Kim, Corros. Sci. 64, 105-14 (2012).
- [25] J. Lin, R. Ballim, Afr. J. Biotechnol. 11 (91), 15736-15747 (2012).
- [26] H.C. Flemming, Colloids Surf. B. 86, 251-259 (2011).
- [27] A.K. Lee, M.G. Buehler, D.K. Newman. Corros. Sci. 48 (1), 165-78 (2006).
- [28] E. Valencia-Cantero, Eduardo, J.J. Peña-Cabriales. J. Microbiol. Biotechnol. 24 (2), 280-86 (2014).
- [29] U. Eduok, M. Khaled, A. Khalil, R. Suleiman, B. El Ali, RSC Adv. 6 (22), 18246-18256 (2016).
- [30] D. Örnek, A. Jayaraman, B. Syrett, C.H. Hsu, F. Mansfeld, T. Wood, Appl. Microbiol. Biotechnol. 58 (5), 651-657 (2002).
- [31] R. Zuo, Appl. Microbiol. Biotechnol. 76 (6), 1245-1253 (2007).
- [32] N. Jamlus, M.N. Masri, S.K. Wee, N.F. Shoparwe, IOP Conference Series: Earth and Environmental Science. 765 (1), 012115 (2021)
Uwagi
1. The authors would like to express heart-felt gratuity to Universiti Malaysia Kelantan for UMK Raising Star Scheme in financial supported.
2. Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-2b4d206f-ebf6-4d3d-ab82-af67d03a90c0