目的:研究西南地区某输油管道外腐蚀行为。方法现场检测,对土壤理化性质及腐蚀产物成分进行室内分析。结果开挖点 A 的土壤呈弱碱性,土壤腐蚀性弱,管道发生轻微均匀腐蚀,腐蚀产物主要为 FeO(OH),Fe(OH)3和 Fe3 O4等铁的氧化物,对应的阴极反应为吸氧反应;开挖点 B 的土壤酸性强,硫酸根离子浓度高,土壤腐蚀性强,管道发生严重坑蚀,腐蚀产物主要成分为 FeSO4·7H2 O 及少量碱式硫酸铁,对应的阴极反应以析氢反应为主。结论开挖点土壤的理化性质差异,导致管道的腐蚀形态、腐蚀产物和腐蚀机理显著不同。
Objective To investigate the external corrosion for two excavation points of an oil pipeline in southwest China. Methods Through the on-site testing and laboratory analysis on phys-chemical properties of soil and composition of corrosion prod-uct. Results The soil is slightly basic for the excavation point A, and its corrosivity is weak, as a result, where the pipeline suffer weakly uniform corrosion, and the corrosion products are mainly iron oxides, including FeO(OH), Fe(OH) 3 and Fe3 O4 , also the cathodic reaction is reduction of dissolved oxygen. While for excavation point B, because of the strong acidity and high content of sulfate ion, the soil is highly corrosive and makes the pipeline suffer serious pitting corrosion, and corrosion products are mainly composed by FeSO4 ·7H2 O, also contains a small amount of basic ferric sulfate, moreover the cathodic process is mainly the re-duction of hydrogen ions. Conclusion Due to the significant difference of the phys-chemical properties of soil, there are notably dif-ferent on the corrosion morphology, products and mechanism of pipeline between two excavation points.
参考文献
| [1] | 刘明辉 .长输管线阴极保护参数自动采集与定位系统[D].中国石油大学(华东),2009. |
| [2] | 景世刚 . 金属管道防腐技术动向[J].表面技术,1998,27(1):28-29. JING Shi-gang. Development Tendency of Anti-corrosion Technology for Metal Pipeline [J]. Surface Technology, 1998,27(1):28-29.,1998. |
| [3] | CARLOS E,RESTREP O,JEFFREY S . Causes,Cost Conse-quences,and Risk Implications of Accidents in US Hazar-dous Liquid Pipeline Infrastructure[J].International Journal of Critical Infrastructure Protection,2009,2:38-50.,2009. |
| [4] | 张明奇.埋地输油管道外防腐层的检测与评估[J].管道技术与设备,2003(06):26-28. |
| [5] | 宋光铃.土壤腐蚀性评价方法综述[J].腐蚀科学与防护技术,1993(04):268. |
| [6] | 吴锡合. 西气东输新疆段压气站埋地管道腐蚀与防腐技术研究[D]. 成都:西南石油大学,2010. WU Xi-he. Research on Corrosion and Anti-corrosion Tech-nology of Buried Pipelines of Compressor Stations in Xin-jiang Section of West-east Gas Pipeline [D]. Chengdu:Southwest Petroleum University,2010.,2010. |
| [7] | 黄亮亮,孟惠民,黄晓林,陈建民,胡景克,王育青.X60管线钢在盐碱性土壤中的腐蚀行为与机理[J].油气储运,2013(03):257-262. |
| [8] | 冯佃臣 .Q235钢和X70管线钢在包头土壤中的腐蚀规律研究[D].内蒙古科技大学,2008. |
| [9] | XIN Su,YIN Zhen-xing . Corrosion of 16Mn Line Pipe Steel in a Simulated Soil Solution and the Implication on Its Long-term Corrosion Behavior[J].Journal of Materials Enginee-ring and Performance,2013,22(2):498-504.,2013. |
| [10] | LIANG P . Effects of Microstructure on Corrosion of X70 Pipe Steel in an Alkaline Soil[J].Journal of Materials En-gineering and Performance,2009,18(2):216-220.,2009. |
| [11] | HEMBARA1 O V,ANDREIKIV O E . Effect of Hydrogena-tion of the Walls of Oil-and-Gas Pipelines on Their Soil Cor-rosion and Service Life[J].Materials Science,2012,47(5):598-607.,2012. |
| [12] | 胥聪敏,陈勇,王玉柱,王礼平,罗金恒.X80管线钢在东南酸性土壤环境中的电化学腐蚀特征研究[J].热加工工艺,2009(24):1-4. |
| [13] | 席艳君,孙成,李洪锡,高立群,张淑泉.酸性土壤腐蚀[J].腐蚀科学与防护技术,2002(04):247-248. |
| [14] | Zhiyong LIU,Cuiwei DU,Xin ZHANG,Fuming WANG,Xiaogang LI.Effect of pH Value on Stress Corrosion Cracking of X70 Pipeline Steel in Acidic Soil Environment[J].金属学报(英文版),2013(04):489-496. |
| [15] | XIAO Kui,ZHANG Xin,DONG Chaofang,WEI Dan,WANG Chen,LI Xiaogang.Localized Electrochemical Impedance Spectroscopy Study on the Corrosion Behavior of Fe-Cr Alloy in the Solution with Cl- and SO42-[J].武汉理工大学学报(材料科学版)(英文版),2012(01):27-32. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%