目的:研究2507双相不锈钢在循环冷却水模拟溶液(添加微生物SRB+IOB)中的腐蚀特征,确定其腐蚀机理。方法模拟某炼油厂循环冷却水溶液,采用SEM,EDS和电化学测试等手段分析2507双相不锈钢在SRB+IOB循环冷却水中浸泡不同时间后的腐蚀产物形貌及其电化学腐蚀情况。结果2507双相不锈钢的腐蚀速率很低,属于轻度腐蚀;在循环冷却水模拟溶液中的阳极极化曲线具有明显的钝化区,且钝化膜具有良好的自修复能力;腐蚀倾向随时间增加先增大后减小,腐蚀速率随时间增加先减小后增大。结论 SRB和IOB及其代谢活动与Cl-协同作用是点蚀的主要原因;2507双相不锈钢具有良好的钝化性和耐微生物腐蚀性能。
ABSTRACT:Objective To study the corrosion characteristics and determine the corrosion mechanism of 2507 duplex stainless steel in circulating cooling water simulated solution containing SRB+IOB. Methods The circulating cooling water in a refinery was simulated, and the morphology of corrosion products and the corrosion mechanism of electrochemical of 2507 duplex stainless steel in circulating cooling water simulated solution containing SRB+IOB were analyzed by SEM, EDS and electrochemical impedance spectroscopy ( EIS) and polarization curves after soaking for different days. Results The corrosion rate of 2507 duplex stainless steel was very low, belonging to mild corrosion. Anodic polarization curves of 2507 duplex stainless steel in circulating cooling wa-ter simulated solution showed significant passivation regions and the passivation film had a good self-healing ability. With increasing corrosion time, the corrosion tendency first increased and then decreased while the corrosion rate first decreased and then in-creased. Conclusion The main cause for the pitting corrosion was the synergic effect of the surface adsorbed SRB and IOB as well as their metabolic activities with Cl-. 2507 duplex stainless steel had a good passivation performance and resistance to microbiologi-cal corrosion.
参考文献
| [1] | 应一梅,周瑞云,杨崇豪,苏喆.循环冷却水输水管壁生物膜生长发育及微生物腐蚀问题研究[J].给水排水,2008(06):117-121. |
| [2] | COSTERTON J W;LEWANDOWSKI Z;CALDWELL D E .Influence of the Microbial Content of Different Precursory Nuclei on the Anaerobic Granulation Dynamics[J].Annals Review of Microbial,1995,49(5):711. |
| [3] | 胥聪敏,张耀亨,程光旭,朱文胜.国外炼油厂换热设备腐蚀研究现状及发展动态[J].石油化工设备,2005(01):41-46. |
| [4] | 张燕,林晶,于贵文.304不锈钢的微生物腐蚀行为研究[J].表面技术,2009(03):44-45,89. |
| [5] | 程海东,许淳淳,吕国诚,曲秀华.304不锈钢在模拟循环冷却水中应力腐蚀破裂的临界Cl-浓度[J].腐蚀与防护,2008(11):674-677. |
| [6] | REMY M;BERNARD C;MICHEL W .Effect of Ferrous ion Availability on Growth of a Corroding SRB[J].International Biodeterioration&Biodegragdation,2001,47(3):125-131. |
| [7] | F. CRUNDWELL .THE FORMATION OF BIOFILMS OF IRON-OXIDISING BACTERIA ON PYRITE[J].Minerals Engineering,1996(10):1081-1089. |
| [8] | 安洋,徐强,任志峰,郦和生.循环冷却水中不同离子对不锈钢点蚀的影响[J].电镀与精饰,2010(07):10-13. |
| [9] | 翟祥华,包伯荣,葛红花,周国定.模拟冷却水中304不锈钢的耐蚀性影响因素研究[J].材料保护,2003(04):25-28. |
| [10] | 胥聪敏,张耀亨,程光旭,朱文胜.炼油厂冷却水系统硫酸盐还原菌对316L不锈钢点腐蚀的研究[J].中国腐蚀与防护学报,2007(01):48-53. |
| [11] | 伍远辉,罗宿星,勾华,孙成.微生物对Q235钢在黄壤土中腐蚀行为的影响[J].表面技术,2011(02):33-35,40. |
| [12] | 梁明华,赵国仙,冯耀荣,苗健.22Cr双相不锈钢的临界点蚀温度研究[J].腐蚀科学与防护技术,2005(06):392-394. |
| [13] | 张燕,李颖.输油气管线的微生物腐蚀与防护[J].装备环境工程,2008(05):45-48. |
| [14] | Jeana Starosvetsky;Robert Armon;Alex Groysman;David Starosvetsky .Fouling of carbon steel heat exchanger caused by iron bacteria[J].Materials Performance,1999(1):55-61. |
| [15] | 李文涛,林晶.微生物膜下Q235钢腐蚀行为的表面分析[J].装备环境工程,2007(06):19-22. |
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