超高压交流输电线路与油气管道安全间距研究
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摘要
在公共走廊内,高压交流输电线路和埋地油气管道的共同敷设,不可避免地会产生交流电对埋地管道的干扰问题,这不仅会影响管道的正常运行,还会导致阴保系统异常。以甬绍金衢管道为研究对象,以交流干扰电压4 V为限值,通过CDEGS软件对不同相线高度和土壤电阻率条件下的埋地管道交流干扰安全间距进行了研究。研究结果表明:安全间距与并行长度总体呈对数关系,主要分为快速增大和平稳变化2个阶段;在研究条件下,当相线对地高度大于21.44 m时,高度对埋地管道交流干扰的安全间距没有影响,土壤电阻率的影响大于输电线路对地高度,土壤电阻率越大,对埋地管道干扰电压变化程度影响越大。
In public corridors, laying HVAC transmission lines and buried pipelines together will inevitably lead to the interference of AC power to buried pipelines, which will not only affect the normal operation of pipelines but lead to the abnormality of cathodic protection system. Taking the Yongshao-Jinqu pipeline as the subject in the study and the ac interference voltage of 4 V as the limit value, this paper studies the safe AC interference spacing of buried pipelines with different phase line heights and soil resistivity by using CDEGS software. The results show that there is a logarithmic relationship between the safety distance and the parallel length, which can be divided into two stages: under the research conditions in this paper, when the ground height of the phase line is greater than 21.44 m, the height has no influence on the safe spacing of AC interference of buried pipelines. The influence of soil resistivity is greater than that of the transmission line to the ground. Meanwhile, the greater the soil resistivity is, the greater the influence of it is on the disturbance voltage variation degree of buried pipelines.
In public corridors, laying HVAC transmission lines and buried pipelines together will inevitably lead to the interference of AC power to buried pipelines, which will not only affect the normal operation of pipelines but lead to the abnormality of cathodic protection system. Taking the Yongshao-Jinqu pipeline as the subject in the study and the ac interference voltage of 4 V as the limit value, this paper studies the safe AC interference spacing of buried pipelines with different phase line heights and soil resistivity by using CDEGS software. The results show that there is a logarithmic relationship between the safety distance and the parallel length, which can be divided into two stages: under the research conditions in this paper, when the ground height of the phase line is greater than 21.44 m, the height has no influence on the safe spacing of AC interference of buried pipelines. The influence of soil resistivity is greater than that of the transmission line to the ground. Meanwhile, the greater the soil resistivity is, the greater the influence of it is on the disturbance voltage variation degree of buried pipelines.
引文
[1]王新华,杨国勇,黄海,等.埋地钢质管道交流杂散电流腐蚀规律研究[J].中国腐蚀与防护学报,2013,33(4):293-297.
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[3]杨晓洪,陈敬和,胡士信,等.交流输电线路对输油气管道的电磁影响现场测试研究[J].腐蚀与防护,2012,33(S2):23-29.
[4]李自力,孙云峰,刘静,等.埋地油气管道交流干扰腐蚀及防护研究进展[J].腐蚀科学与防护技术,2011,23(5):376-380.
[5]董铁柱,白锋,李海鹏,等.新疆750 kV二通道交流输电线路对邻近输油气管道电磁影响的仿真研究[J].电力建设,2013,34(8):40-46.
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[9]王雁冰.川气东送管道杂散电流排流工程技术研究[D].西安:西安石油大学,2010.
[10]王爱玲.750 kV高压交流输电线路对埋地管道的干扰规律研究[D].青岛:中国石油大学(华东),2013.
[11]杨超,李自力,催淦,等.埋地管道与高压交流输电线之间的安全距离[J].腐蚀与防护,2016,37(1):56-59.
[12]桂菲菲,王振刚,庞百姓,等.基于labVIEW的架空输电线最大弧垂计算方法[J].电力建设,2013,34(7):108-113.
[2]王帅华.高压输电线对埋地管道耦合干扰规律研究[D].青岛:中国石油大学(华东),2009.
[3]杨晓洪,陈敬和,胡士信,等.交流输电线路对输油气管道的电磁影响现场测试研究[J].腐蚀与防护,2012,33(S2):23-29.
[4]李自力,孙云峰,刘静,等.埋地油气管道交流干扰腐蚀及防护研究进展[J].腐蚀科学与防护技术,2011,23(5):376-380.
[5]董铁柱,白锋,李海鹏,等.新疆750 kV二通道交流输电线路对邻近输油气管道电磁影响的仿真研究[J].电力建设,2013,34(8):40-46.
[6]董根生,蒋剑,相生荣,等.750 kV交流线路对多条油气管道的电磁影响研究[J].中国电业,2015,65(10):16-22.
[7]中华人民共和国住房和城乡建设部.埋地钢质管道交流干扰防护技术标准:GB/T 50698-2011[S]北京:中国计划出版社,2011.
[8]李天成.榆济输气管道交流干扰的排流[J].腐蚀与防护,2013,34(3):249-251.
[9]王雁冰.川气东送管道杂散电流排流工程技术研究[D].西安:西安石油大学,2010.
[10]王爱玲.750 kV高压交流输电线路对埋地管道的干扰规律研究[D].青岛:中国石油大学(华东),2013.
[11]杨超,李自力,催淦,等.埋地管道与高压交流输电线之间的安全距离[J].腐蚀与防护,2016,37(1):56-59.
[12]桂菲菲,王振刚,庞百姓,等.基于labVIEW的架空输电线最大弧垂计算方法[J].电力建设,2013,34(7):108-113.
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