简述了由硫酸盐还原菌(SRB)引起的微生物腐蚀(MIC)的机理、环境因素与SRB的协同效应对MIC的影响及控制SRB的措施的研究进展.
参考文献
| [1] | Wagner P;Little B .Impact of alloying on microbiologically influenced corrosion-a review[J].Materials Performance,1993,9:65-68. |
| [2] | 张学元;王凤平;杜元龙 等.石油工业中的细菌腐蚀和预防[J].石油与天然气化工,1999,28(01):53-56. |
| [3] | Starkey R L .The general physiology of the sulfate-reducing bacteria in relation to corrosion[J].Producers Monthly,1958,22:12-16. |
| [4] | Von Wolzogen Kühr;C A H Van der Vlugt, L S .铸铁的石墨化是在缺氧土壤中的一种电化学过程[J].Water,1934,18:147. |
| [5] | Booth g H;Tiller A K .Cathodic characteristics of mild steel in suspensions of sulphate-reducing bacteria[J].Corrosion Science,1968,8:583-600. |
| [6] | Ringas G;Robinson F P A .Corrosion of stainless steel by sulfate-reducing bacteria-total immersion test results[J].Corrosion,1988,44(09):671-678. |
| [7] | 马振瀛 .航空器材及燃料系统的微生物腐蚀[J].工业微生物,1997,27(02):37-40. |
| [8] | Pope D H;Alan Morris E.Some experiments with microbiologically influenced corrosion of pipelines[J].Materials Performance,1995(05):23-28. |
| [9] | 唐和清.微生物腐蚀中游离氧的作用[J].材料保护,1992(04):23. |
| [10] | 张小里,陈志昕,刘海洪,郭生武,陈开勋.环境因素对硫酸盐还原菌生长的影响[J].中国腐蚀与防护学报,2000(04):224-229. |
| [11] | Hardy J A;Bown J L .The corrosion of mild steel by biogenic sulfide films exposed to air[J].Corrosion,1984,40(12):650-654. |
| [12] | Von Rège H;Sand W .Simulation of metal-MIC for evaluation of counter-measures[J].WerKstoffe und Korrosion,1996,47(09):486-494. |
| [13] | Smith J S;Miller J D A .Nature of sulphides and their corrosoive effect on ferrous metals: A review[J].British Corrosion Journal,1975,10:136. |
| [14] | King R A;Dittmer C K;Miller J D A .Effect of ferrous ion concentration on the corrosion of iron in semicontinuous cultures of sulphate-reducing bacteria[J].British Corrosion Journal,1976,11(02):105-107. |
| [15] | Lee W;Characklis W G .Corrosion of mild steel under anaerobic biofilm[J].Corrosion,1993,49(03):186-198. |
| [16] | Savarezza R C;Vidella H A;Arvia A J .The electrochemical behaviour of mild steel in phosphate-boratesulphide solutions[J].Corrosion Science,1983,23:717-732. |
| [17] | Salvarezzat R C;Vidella H A .Passivity breakdown of mild steel in sea water in the presence of sulfate reducing bacteria[J].Corrosion,1980,36:550-554. |
| [18] | Ringas C;Robinson F P A .Corrosion of stainless steel by sulfate-reducing bacteria-electrochemical techniques[J].Corrosion,1988,44(09):386-396. |
| [19] | D. Starosvetsky;O. Khaselev;J. Starosvetsky;R. Armon;J. Yahalom .Effect of iron exposure in SRB media on pitting initiation[J].Corrosion Science,2000(2):345-359. |
| [20] | Pinto C V;Pereira R;Carrondo M J T et al.Influence of micronutrient concentration on growth and activity of sulfate reducing bacteria[J].Corrosion Abstracts,1997,36(02):147. |
| [21] | Fonseca ITE.;Lino AR.;Reis MA.;Rainha VL.;Feio MJ. .The influence of the media on the corrosion of mild steel by Desulfovibrio desulfuricans bacteria: an electrochemical study[J].Electrochimica Acta,1998(1/2):213-222. |
| [22] | P. Angell;K. Urbanic .Sulphate-reducing bacterial activity as a parameter to predict localized corrosion of stainless alloys[J].Corrosion Science,2000(5):897-912. |
| [23] | 下平三郎 .细菌对金属的腐蚀[J].应用微生物,1973,6(01):27-33. |
| [24] | 俞敦义.环境对硫酸盐还原菌生长的影响[J].材料保护,1996(02):1. |
| [25] | 朱日彰.金属腐蚀学[M].北京:冶金工业出版社,1989:212-215. |
| [26] | 刘鹤霞;赵景茂.CT10-1新型杀菌剂的研究与应用[J].腐蚀与防护,1990(06):315-317. |
| [27] | 魏宝明.金属腐蚀理论及应用[M].北京:化学工业出版社,1984:170-175. |
| [28] | F. Kajiyama;K. Okamura .Evaluating cathodic protection reliability on steel pipe in microbially active soils[J].Corrosion: The Journal of Science and Engineering,1999(1):74-80. |
| [29] | G. B. Farquhar .Review and update of technology related to formation souring[J].Corrosion Prevention & Control,1998(2):51-56. |
| [30] | Sperl G T .Enhanced oil recovery using denitrifying microorganisms[P].US 5044435,1991. |
| [31] | Hitzman D O;Sperl G T et al.A new technology for enhanced oil recovery and sulphide prevention and reduction[D].Texas: SPE/DOE Recovery Symposium, SPE paper, No. 27752,1994. |
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