在油田注水系统和工业循环冷却水系统中,硫酸盐还原菌(SRB)是微生物腐蚀(MIC)的主要因素之一.硫酸盐还原菌对金属的腐蚀主要表现在SRB的生长代谢在金属表面形成生物膜,改变了生物膜内微环境,其代谢产物与金属基体相互作用,加速了金属的腐蚀过程.从硫酸盐还原菌的微生物生理学,SRB的腐蚀机理,SRB对材料的腐蚀,SRB腐蚀研究方法和SRB腐蚀防治等几个方面,对微生物腐蚀的近期研究状况进行综述,并展望了微生物腐蚀研究的近期发展趋势.
参考文献
| [1] | 李文融 .硫酸盐还原菌[J].工业水处理,1986,6(01):52. |
| [2] | 黄魁元.硫酸盐还原菌抑制剂的研究与应用概况[J].工业水处理,1984(04):19-23. |
| [3] | Tiller A K .Polarization studies of mild steel in suspensions of sulfate-reducing bacteria[J].Transactions of the Faraday Society,1960,56:1689-1696. |
| [4] | 腐蚀工程[M].北京:化学工业出版社,1978 |
| [5] | 吕人豪.工业循环冷却水中微生物腐蚀及其控制[A].北京:科学出版社,1982:358-359. |
| [6] | Suickland L N.A case history of microbiologically influenced corrosion in the Lost Hills Oilfield[M].Califomia: [s.n,1996:297. |
| [7] | Flemming H C.Economical and techrical overview[M].Springer-Verlag, Berlin: Heidelberg,1996 |
| [8] | Walsh D;Pope D;Danford M .The effect of microstructure on microbiologically-influenced corrosion[J].Journal of The Minerals,Metals & Materials Society,1993,45(09):22-30. |
| [9] | Argonne N L .Environmentally acceptable methods control pipeline corrosion at lower cost[J].Materials Performance,1997,36(02):71. |
| [10] | Tatnall R E.Introduction[M].Houston TX: NACE,1995 |
| [11] | Stott J F D .Assessment and control of microbially-induced corrosion[J].Metals and Materials,1988,4:224-279. |
| [12] | Herbert B N;Stott F D.The effects of pressure and temperature on bacteria in oilfield water injection systems[J].London:The Metals Society,1983 |
| [13] | [Anon]. The Role of Bacteria in the Corrosion of oilfield Equipment[M].NACE |
| [14] | Little B J;Wagner P .Myths related to microbiologically influenced corrosion[J].Materials Performance,1997,36(06):40-44. |
| [15] | Tiller A K.Electrochemical aspects of microbial corrosion: an overview[M].London: The Metals Society,1983 |
| [16] | Javaherdashti Reza .A review of some characteristics of MIC caused by sulfate-reducing bacteria:past,present and future[J].Anti-Corrosion Methods and Materials,1999(3):159-0. |
| [17] | 刘靖;刘宏芳;许立铭.硫酸盐还原菌的变异及其对碳钢的腐蚀行为研究[A].上海:出版者不详,2000:350-353. |
| [18] | Kathy J;BaldwinSA .The role of sulfate-reducing bacteria in copper removal from aqueous sulfate solutions[J].War Res,2000,34(03):797-806. |
| [19] | 上海钢研究所.海洋用钢腐蚀研究[M].上海:上海科学技术出版社,1978 |
| [20] | Iverson W P .Microbes plays a consiserable role in corrosion[J].Proc conf Bid corrosion,1985,32(10):327-330. |
| [21] | Von Wolzogen Kukr C A;Van Vlugt L S;De Grafi-teering .Van Gietijzerals Electrobiochemich Process Manscrobe Gronden Water[J].Corrosion,1984,18(06):147. |
| [22] | 郭稚弧.细菌腐蚀与控制[M].武汉:华中理工大学化学系,1989 |
| [23] | King K .A Study on Mechansim of microbiologe corrosion[J].Nature,1971,233(05):491. |
| [24] | Booth g H.Cathodic characteristics of mild steel in suspensions of sulfatereducing bactera[J].Corrosion Science,1968(08):583-600. |
| [25] | KingR A.Corrosion of mild steel by iron sulfides[J].British Corrosion Journal,1973(08):137. |
| [26] | 郭稚弧 .硫酸盐还原菌导致的碳钢厌氧腐蚀[J].油田化学,1988,5(04):319. |
| [27] | Iveson W P .Direct evidence for the cathodic depolarization theory of bacterial corrosion[J].Science,1966,151:986. |
| [28] | 刘宏芳,许立铭,郑家燊.硫酸盐还原菌生物膜下钢铁腐蚀研究概况[J].油田化学,2000(01):93-96. |
| [29] | Dexter S C.Localized biological corrosion and "biological effects[M].[s.l.]:[s.n.],1987 |
| [30] | Wagner P;Hart K et al.Microbiological degradation of stressed fiber-reinforced polymeric composites[J].Materials Performance,1996,35(02):79-82. |
| [31] | Ncneil M B;Jones J M;Little B J .Production of sulfide minerals by sulfate-reducing bacteria during microbiologically influenced corrosion of copper[J].Corrosion,1991,47(09):674-677. |
| [32] | Javaherdashti R;Sarioglu F Aksoz N .Corrosion of a drilling pipe steel in an envimnment containing sulfate-reducing bacteria[J].International Journal of Pressure Vessels and Piping,1997,73:127-131. |
| [33] | Shutz R W .A case for titanium's resistance to microbiologically influenced corrosion[J].Materials Performance,1991,30(01):58-61. |
| [34] | Little B J.Microbial corrosion[M].New York:John Wiley & Sons,1990:635. |
| [35] | Mcneil M B;Little B J .Mackinawite formation during microbial corrosion[J].Corrosion,1990,46(07):599. |
| [36] | 吴建华;刘光洲;于辉 等.海洋微生物腐蚀的电化学研究方法[J].腐蚀与防护,1999,20(05):23l-237. |
| [37] | Dexter S C;Duquette D J .Use and limitations of electrochemical techniques for investigating microbial corrosion[J].Corrosion,1991,4(47):308-318. |
| [38] | 曹楚南.混合电位下的电极过程研究[J].腐蚀科学与防护技术,1998(01):1. |
| [39] | Xu K;Dexter S C;Luther G W .Voltammeteic microelectrodes for biocorrosion studies[J].CORROSION,1998,54(10):814. |
| [40] | Bremmer P J;Geesey G G;Drake B .Elucidating corrosion phenomena related to biofilms on metals surface using atomic force microscopy[J].Corr Microbiol,1992,24:223. |
| [41] | Steele A;Goddard D T;Beech I B .Atomic force microscopy study of microbionlogical influenced corrosion SRB biofilms on steel surface[J].International Biodeterioration and Biodegradation,1994,34:35. |
| [42] | Beech I B .Biofilm formation on mild steel coupons by pseudomonas and desulfovibrio[J].BIOFOULING,1993,7(02):129. |
| [43] | Xu Li-Chong;Herbert H P;Chan Kwong-Yu .Atomic force microscopy study of microbiological influenced corrosion[J].Journal of the Electrochemical Society,1999,146(12):4455-4460. |
| [44] | Videla H A.In biologically induced corrosion[C].Houston: NACE,1986:162. |
| [45] | 刘宏芳;许立铭 .杀菌剂的合并使用[J].石油学报,1999,20(02):93-95. |
| [46] | 刘宏芳,徐智谋.材料的微生物腐蚀敏感性[C].海峡两岸材料腐蚀与防护研究进展(海峡两岸材料腐蚀与防护研讨会:论文专辑),1998:386~388. |
| [47] | 刘宏芳,徐智谋,郑家燊,许立铭,杨昊鹏.几种材料的微生物腐蚀[J].材料保护,1999(11):3-4. |
| [48] | Javaherdashti R.Apploying fuzzy sets concepts to define a membership function for biofilm formation on metallic surfaces[M].Huston TX:NACE,1999 |
| [49] | Argonne N L .Corrosion can be prevented by bacteria[J].Materials Performance,1995,34(07):34. |
| [50] | Javaherdashti R.Magnetic bacteria against MIC[M].Houston TX:NACE,1997:419. |
| [51] | Javanerdashti R.A proposal for using certain microorganisms to produce energy[M].Tehran Iran: Electric Power Research Center,1994 |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%