海上风电设备腐蚀在线监测技术研究与应用

贾彦兵; 高宏飚; 钱正宏; 刘碧燕; 王潘俊

海上风电设备腐蚀在线监测技术研究与应用

1. 龙源电力集团股份有限公司, 北京 100034;
2. 江苏海上龙源风力发电有限公司, 江苏南通 226007;
3. 北京科技大学, 北京 100083

详细信息

作者简介:
贾彦兵,男,1966年生,硕士,高级工程师,主要从事电力工程管理工作

中图分类号: TG174
计量
- 文章访问数: 304
- HTML全文浏览量: 101
- PDF下载量: 28
- 被引次数: 0
出版历程
- 收稿日期: 2020-10-14
- 刊出日期: 2021-06-25

Research and Application of On-line Monitoring Technology of Offshore Wind Power Equipment Corrosion

1. China Longyuan Power Group Co. Ltd., Beijing 100034, China;
2. Jiangsu Longyuan Offshore Wind Power Generation Co. Ltd., Nantong 226001, China;
3. University of Science and Technology Beijing, Beijing 100083, China

摘要

摘要: 介绍了适用于海上风电的腐蚀电化学监测技术，综述了海上风电腐蚀监测技术发展的现状。对海上风电设备的腐蚀监测需求进行分析，并利用大气环境腐蚀监测仪对海上风电设备的腐蚀进行实时在线监测。监测结表明，该海上风电腐蚀监测系统检测速度快、灵敏度高、检测数据精准、自动化程度高，能实时将现场的腐蚀环境真实反馈到远程运维终端。
- 海上风电 /
- 腐蚀 /
- 监测技术 /
- 实时监测
Abstract: The electrochemical corrosion monitoring technology suitable for offshore wind power was introduced, and the development status of offshore wind power corrosion monitoring technology summarized. The corrosion monitoring requirements of offshore wind power equipment was analyzed, and the atmospheric environmental corrosion monitor was adopted to monitor the corrosion of offshore wind power equipment in real-time. The results of the monitoring data showed that the offshore wind power corrosion monitoring system had the features of fast detection speed, high sensitivity, accurate detection data, and a high degree of automation, which could truly feedback the on-site corrosion environment to the remote operation and maintenance terminal in real-time.
- offshore wind power /
- corrosion /
- monitoring technology /
- real-time monitoring

HTML全文

参考文献(16)

[1]	梁来雨,李生,何利勇,等.海洋工程装备腐蚀监测技术研究现状[J].全面腐蚀控制,2020,34(3):29-33.
[2]	刘贵民.无损检测技术(第二版)[M].北京:国防工业出版社,2010.
[3]	邢展,李煌,郭长瑞,等.石化行业常用腐蚀监测技术综述[J].全面腐蚀控制,2017,31(3):43-50.
[4]	张敏,黄红军,李志广,等.金属腐蚀监测技术[J].腐蚀科学与防护技术,2007,19(5):354-357.
[5]	周玉波,邵丽艳,李言涛,等.腐蚀监测技术现状及发展趋势[J].海洋科学,2005,29(7):77-80.
[6]	KAMSU-FOGUEM B.Knowledge-based support in non-destructive testing for health monitoring of aircraft structures[J].Advanced Engineering Informatics,2012,26(4):859-869.
[7]	ROYER R A,UNZ R F.Use of electrical resistance probes for studying microbiologically influenced corrosion[J].Corrosion,2002,58(10):863-870.
[8]	KARTHICK S P,MURALIDHARAN S,SARASWATHY V,et al.Long-term relative performance of embedded sensor and surface mounted electrode for corrosion monitoring of steel in concrete structures[J].Sensors and Actuators B:Chemical,2014,192:303-309.
[9]	LI Z L,FU D M,LI Y,et al.Application of an electrical resistance sensor-based automated corrosion monitor in the study of atmospheric corrosion[J].Materials,2019,12(7):1065.
[10]	CHENG Y L,ZHANG Z,CAO F H,et al.A study of the corrosion of aluminum alloy 2024-T3 under thin electrolyte layers[J].Corrosion Science,2004,46(7):1649-1667.
[11]	VAN DEN STEEN N,SIMILLION H,DOLGIKH O,et al.An integrated modeling approach for atmospheric corrosion in presence of a varying electrolyte film[J].Electrochimica Acta,2016,187:714-723.
[12]	NISHIKATA A,ICHIHARA Y,TSURU T.Electrochemical impedance spectroscopy of metals covered with a thin electrolyte layer[J].Electrochimica Acta,1996,41(7-8):1057-1062.
[13]	NISHIKATA A,ICHIHARA Y,TSURU T.An application of electrochemical impedance spectroscopy to atmospheric corrosion study[J].Corrosion Science,1995,37(6):897-911.
[14]	LI C L,MA Y T,LI Y,et al.EIS monitoring study of atmospheric corrosion under variable relative humidity[J].Corrosion Science,2010,52(11):3677-3686.
[15]	CAO X L,DENG H D,LAN W,et al.Electrochemical investigation on atmospheric corrosion of carbon steel under different environmental parameters[J].Anti-Corrosion Methods and Materials,2013,60(4):199-205.
[16]	PEI Z B,CHENG X Q,YANG X J,et al.Understanding environmental impacts on initial atmospheric corrosion based on corrosion monitoring sensors[J].Journal of Materials Science& Technology,2021,64:214-221.