摘要
综述了深海工程装备阴极保护参数、牺牲阳极材料以及阴极保护技术研究及应用现状,分析了深海压力、溶解氧、温度、流速等环境因素对阴极保护电位、电流密度判据,牺牲阳极性能影响,认为温度和流速是影响阴极保护电流密度的两个关键因素,而温度和压力交变是影响牺牲阳极性能的两个主要因素。最后讨论了深海工程装备阴极保护技术发展方向。
The state-of-the-art in cathodic protection technology for marine infrastructures in deep sea was reviewed. This critical review outlined the research progress in cathodic protection parameters, sacrificial anode materials, and the application of cathodic protection technology in deep sea. Emphasis was put on the influenCe of environmental factors such as hydrostatic pressure, dissolved oxygen content, temperature and velocity on the cathodic protection potential, the current density criteria and the performance of sacrificial anodes. Temperature and velocity were found to be the two key factors influencing the cathodic protection current density, while the performance of sacrificial anodes was mainly influenced by temperature and the cyclic hydrostatic pressure. Finally, the trend of development of cathodic protection technology for marine infrastructures in deep sea was discussed.
出处
《装备环境工程》
CAS
2015年第2期49-53,共5页
Equipment Environmental Engineering
基金
国家自然科学基金项目(51401185)
高技术船舶项目(海洋工程腐蚀防护关键技术)~~
关键词
阴极保护
深海腐蚀
工程装备
cathodic protection
deep sea corrosion
marine infrastructure
