波浪能发电装置的防腐蚀措施
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摘要
对波浪能发电及其他海洋平台的防腐蚀技术进行了综述,并结合波浪能发电装置的构成,对各个系统的腐蚀特点进行了分析。根据各个部分的工作条件,针对性地给出了波浪能装置不同部分的防腐蚀方法,为波浪能发电装置的防腐蚀设计提供了一定参考。
The anti-corrosion technologies of wave energy generation and other offshore platforms are reviewed.Combined with the composition of wave energy generation devices,the corrosion characteristics of each system are analyzed.According to the working conditions of each part,the anti-corrosion methods of different parts of wave energy devices are given in a targeted manner,which provides a reference for the anti-corrosion design of wave energy generating devices.
The anti-corrosion technologies of wave energy generation and other offshore platforms are reviewed.Combined with the composition of wave energy generation devices,the corrosion characteristics of each system are analyzed.According to the working conditions of each part,the anti-corrosion methods of different parts of wave energy devices are given in a targeted manner,which provides a reference for the anti-corrosion design of wave energy generating devices.
引文
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[24]侯磊,李伟华,郑海兵,等.海洋钢筋混凝土结构防腐蚀技术研究进展[J].材料保护,2017(3):62-67.
[25]吴鹏.沿海水下基桩混凝土的配方设计及耐腐蚀性研究[J].工程建设与设计,2017(3):68-71.
[26]刘波,王树立,赵永刚,等.各因素对套管内管道阴极保护影响的数值模拟[J].腐蚀与防护,2017,38(2):107-112.
[27]孙吉星,王庆璋,金曦,等.海底管道外防腐层破损阴极保护数值模拟[J].全面腐蚀控制,2016,30(11):7-9.
[2]夏兰廷,黄桂桥,张三平,等.金属材料的海洋腐蚀与防护[M].北京:冶金工业出版社,2003.
[3]高秀华,张大征,苏冠侨,等.海洋平台用中锰钢飞溅区海水腐蚀行为[J].东北大学学报:自然科学版,2017,38(9):1234-1238.
[4]侯保荣.海洋钢结构浪花飞溅区腐蚀控制技术[M].北京:科学出版社,2011:10-100.
[5] KREISLOVA K,GEIPLOVA H.Prediction of the long-term corrosion rate of copper alloy objects[J].Materials&Corrosion,2016,67(2):152-159.
[6]符策鹄,任海滔,姚华,等.曝晒位置对纯铜热带海洋大气环境腐蚀性能的影响研究[J].装备环境工程,2017,14(6):116-121.
[7]杨士雄.近海陆地石油钻机的防腐技术及应用[D].大庆:东北石油大学,2015.
[8]侯保荣,张盾,王鹏.海洋腐蚀防护的现状与未来[J].中国科学院院刊,2016,31(12):1326-1331.
[9] CLEMENT A,MCCULLEN P,FALCAO A,et al.Wave energy in europe:current status and perspectives[J].Renewable and Sustainable Energy Reviews,2002,6(5):405-431.
[10]盛松伟,张亚群,王坤林,等.鹰式装置“万山号”总体设计概述[J].船舶工程,2015(S1):10-14.
[11] SHENG S W,YOU Y G,ZHANG Y Q.Research on power take-off system of floating wave power device[J].Journal of Mechanical Engineering,2012,48(24):141-146.
[12]李扬眉,杨立,杨东菊,等.海洋能发电装置的防腐技术概述[J].海洋技术学报,2011,30(3):108-110.
[13]杨宏启.海洋工程防腐涂层/碳钢体系的力学化学行为研究[D].大连:大连理工大学,2017.
[14] FLEMING A,PENESIS I,MACFARLANE G,et al.Energy balance analysis for an oscillating water column wave energy converter[J].Ocean Engineering,2012,54(14):26-33.
[15] CHEHAZE W,CHAMOUN D,BOU-MOSLEH C,et al.Wave roller device for power generation[J].Procedia Engineering,2016,145:144-150.
[16]尚波.用复合材料开发潮汐能[J].玻璃钢,2015(2):36-42.
[17]吴佳梁,李成锋.海上风力发电机组设计[M].北京:化学工业出版社,2012.
[18]洪啸虎,薛尚文,常兴,等.基于海洋环境的水下液压系统密封技术研究[J].液压气动与密封,2012,32(3):15-19.
[19]佚名.海洋多功能平台石墨烯基重防腐及防污工程顺利竣工并交付[J].表面工程与再制造,2016,16(6):59-59.
[20] ZEA C,BARRANCO-GARCA R,CHICO B,et al.Smart mesoporous silica nanocapsules as environmentally friendly anticorrosive pigments[J].International Journal of Corrosion,2015(1):1-8.
[21] DHAWAN S K,ANOOP K S,BHANDARI H,et al.Development of highly hydrophobic and anticorrosive conducting polymer composite coating for corrosion protection in marine environment[J].Frontiers in Psychiatry,2015,6(1A):119.
[22]MAHDAVI F,FORSYTH M,TAN M Y J.Techniques for testing and monitoring the cathodic disbondment of organic coatings:an overview of major obstacles and innovations[J].Progress in Organic Coatings,2017,105:163-175.
[23]邹辉.海上风机基础结构防腐蚀研究[J].华东电力,2014,42(12):2529-2534.
[24]侯磊,李伟华,郑海兵,等.海洋钢筋混凝土结构防腐蚀技术研究进展[J].材料保护,2017(3):62-67.
[25]吴鹏.沿海水下基桩混凝土的配方设计及耐腐蚀性研究[J].工程建设与设计,2017(3):68-71.
[26]刘波,王树立,赵永刚,等.各因素对套管内管道阴极保护影响的数值模拟[J].腐蚀与防护,2017,38(2):107-112.
[27]孙吉星,王庆璋,金曦,等.海底管道外防腐层破损阴极保护数值模拟[J].全面腐蚀控制,2016,30(11):7-9.