埋地钢质管道受高铁交流干扰的数值模拟
Numerical Simulation of AC interference from High-Speed Railway with Buried Steel Pipeline
摘 要
利用数值模拟软件建立了埋地钢质管道受高速铁路输电系统的交流杂散电流干扰(交流干扰)的模型,通过模型计算预测了高铁机车运行至不同位置时对管道造成的干扰情况。根据相关标准要求,对交流干扰进行分析评价,得到超出标准限值要求的管道范围。针对超出安全限值的管线,利用水平敷设锌带的方式设计缓解方案,实现了高速铁路对埋地钢质管道的腐蚀干扰防护,保障埋地钢质管道的安全运行。
钢质管线
交流杂散电流
数值模拟
腐蚀
high-speed railway
steel pipeline
AC stray current
numerical simulation
corrosion
Abstract
Using numerical simulation software, a model of buried steel pipeline interfered by alternating current stray current interference (AC interference) of high-speed railway transmission system was established. The condition of interference with pipeline was predicted through model calculation when high-speed railway locomotives ran to different positions. According to the requirements of relevant standards, the AC interference was analyzed and evaluated, and the pipeline scope beyond the standard limit values of AC interference was obtained. For pipelines that exceeded the safety limit, a mitigation scheme was designed by horizontal laying of zinc belts to achieve corrosion protection for buried steel pipelines against the AC interference of high-speed railways and to ensure the safe operation of buried steel pipelines.
中图分类号 TG174 DOI 10.11973/fsyfh-202008008
所属栏目 数值模拟
基金项目
收稿日期 2020/5/4
修改稿日期
网络出版日期
作者单位点击查看
引用该论文: SUN Zhaoqiang. Numerical Simulation of AC interference from High-Speed Railway with Buried Steel Pipeline[J]. Corrosion & Protection, 2020, 41(8): 39
共有人对该论文发表了看法,其中:
人认为该论文很差
人认为该论文较差
人认为该论文一般
人认为该论文较好
人认为该论文很好
参考文献
【1】中长期铁路网规划(2008年调整)[J]. 铁道知识,2008(6):4-7.
【2】MARIN B. A history of stray current corrosion[J]. Corrosion & Materials,2006,31(1):12-14.
【3】SANTI G,SANDROLINI L. Stray current interference on high-speed rail transit systems and surrounding buried metallic structures[C]//Proceeding of CeoCor 2003-International Congress & Technical Exhibition. Giardini Naxos:[s.n.],2003.
【4】PANOSSIAN Z,FILHO S,ALMERIDA N D,et al. Effect of alternating current by high power lines voltage and electric transmission systems in pipelines corrosion[C]//Corrosion 2009. Houston,DX:NACE International,2009:09541.
【5】BOSKO M,BOZIDAR F G,TOMISLAV R. Electromagnetic fields and induced voltages on underground pipeline in the vicinity of AC traction system[J]. Journal of Energy and Power Engineering,2014,8(7):1333-1340.
【6】BAECKMANN W,SCHWENK W. Handbuch des Kathodischen Korrosionsschutzes (4Auflage)[M]. Weinheim:Wiley-VCH Verlagsgruppe,1999.
【7】吴长访,王波,裴音,等. 铁秦线管道交流杂散电流干扰检测与评价[J]. 腐蚀与防护,2014,35(1):36-38.
【8】鲜俊,王文斌,梅鹏,等. 电气化铁路杂散电流对埋地管线干扰影响研究[J]. 全面腐蚀控制,2013,27(4):42-46.
【9】宋春慧,王力勇,姜子涛,等. 胶日线天然气管道交流干扰评估与缓解[J]. 腐蚀与防护,2013,34(7):89-92.
【10】王双平. 交流电气化铁路对路外管道干扰影响及防护[J]. 管道技术与设备,2013(3):36-38.
【11】BRAUNSTEIN R,SCHMAUTZER E,GRAZ G P. Comparison and discussion on potential mitigating measures regarding inductive interference of metallic pipelines[C]//Electrical Systems for Aircraft, Railway and Ship Propulsion (ESARS)/2010. Bologna:[s.n.],2010.
【12】张小月. 电气化铁道对油气管道电磁干扰的计算及防护措施[J]. 石油库与加油站,2010,19(4):29-32.
【13】PLEYM A,MA J. A Study of interference from AC electrified railway systems to nearby earth return circuits[C]//1999 IEEE International Symposium On Electromagnetic Compatibility. Seattle,WA:[s.n.],1999:2-6.
【2】MARIN B. A history of stray current corrosion[J]. Corrosion & Materials,2006,31(1):12-14.
【3】SANTI G,SANDROLINI L. Stray current interference on high-speed rail transit systems and surrounding buried metallic structures[C]//Proceeding of CeoCor 2003-International Congress & Technical Exhibition. Giardini Naxos:[s.n.],2003.
【4】PANOSSIAN Z,FILHO S,ALMERIDA N D,et al. Effect of alternating current by high power lines voltage and electric transmission systems in pipelines corrosion[C]//Corrosion 2009. Houston,DX:NACE International,2009:09541.
【5】BOSKO M,BOZIDAR F G,TOMISLAV R. Electromagnetic fields and induced voltages on underground pipeline in the vicinity of AC traction system[J]. Journal of Energy and Power Engineering,2014,8(7):1333-1340.
【6】BAECKMANN W,SCHWENK W. Handbuch des Kathodischen Korrosionsschutzes (4Auflage)[M]. Weinheim:Wiley-VCH Verlagsgruppe,1999.
【7】吴长访,王波,裴音,等. 铁秦线管道交流杂散电流干扰检测与评价[J]. 腐蚀与防护,2014,35(1):36-38.
【8】鲜俊,王文斌,梅鹏,等. 电气化铁路杂散电流对埋地管线干扰影响研究[J]. 全面腐蚀控制,2013,27(4):42-46.
【9】宋春慧,王力勇,姜子涛,等. 胶日线天然气管道交流干扰评估与缓解[J]. 腐蚀与防护,2013,34(7):89-92.
【10】王双平. 交流电气化铁路对路外管道干扰影响及防护[J]. 管道技术与设备,2013(3):36-38.
【11】BRAUNSTEIN R,SCHMAUTZER E,GRAZ G P. Comparison and discussion on potential mitigating measures regarding inductive interference of metallic pipelines[C]//Electrical Systems for Aircraft, Railway and Ship Propulsion (ESARS)/2010. Bologna:[s.n.],2010.
【12】张小月. 电气化铁道对油气管道电磁干扰的计算及防护措施[J]. 石油库与加油站,2010,19(4):29-32.
【13】PLEYM A,MA J. A Study of interference from AC electrified railway systems to nearby earth return circuits[C]//1999 IEEE International Symposium On Electromagnetic Compatibility. Seattle,WA:[s.n.],1999:2-6.
相关信息
