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[1]宋丽敏 唐取 区伟斌 苏波 文陈鼎 彭贵文 姜子涛.新建高压输电线路对管道干扰预测及缓解措施[J].油气储运,2019,38(10):1144-1150.[doi:10.6047/j.issn.1000-8241.2019.10.011]
 SONG Limin,TANG Qu,OU Weibin,et al.Prediction and mitigation of AC interference on the pipeline caused by planned HVAC transmission line[J].Oil & Gas Storage and Transportation,2019,38(10):1144-1150.[doi:10.6047/j.issn.1000-8241.2019.10.011]
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新建高压输电线路对管道干扰预测及缓解措施

参考文献/References:

[1] 胡士信. 阴极保护工程手册[M]. 北京:化学工业出版社,1999: 213-214. HU S X. Handbook of cathodic protection engineering[M]. Beijing:Chemical Industry Press,1999:213-214.
[2] WAKELIN R G,SHELDON C. Investigation and mitigation of AC corrosion on a 300 mm diameter natural gas pipeline[C]. New Orleans:NACE Annual Corrosion Conference & Exposition, 2004:04205.
[3] WAKELIN R G,GUMMOW R A,SEGALL S M. AC corrosion-case histories,test procedures & mitigation[C]. San Diego:NACE Annual Corrosion Conference & Exposition,1998: 98565.
[4] 李炳,邹慧慧,吴凯,等. 某三层PE 埋地钢管管体的腐蚀原因[J]. 腐蚀与防护,2016,37(8):688-692. LI B,ZOU H H,WU K,et al. Corrosion reason for a buried gas pipeline with 3PE coating[J]. Corrosion & Protection,2016, 37(8):688-692.
[5] DABKOWSKI J. The evolution of AC predictive and mitigation software[C]. New Orleans:NACE Annual Corrosion Conference & Exposition,2017:8912.
[6] GARCIA A,KRISSA L J,DEWITT J. Effect of transmission pipeline properties on alternated induced voltage[C]. New Orleans:NACE Annual Corrosion Conference & Exposition, 2017:9786.
[7] LI Y,DAWALIBI FP. Effects of current unbalance and transmission line configuration on the interference levels induced on nearby pipelines[C]. New Orleans:NACE Annual Corrosion Conference & Exposition,2004:04213.
[8] SIMON P D,LOPEZ-GARRITY M,WAGNER D. Identification and prioritization of potential HVAC interference locations on a 6000 mile crude and product transmission pipeline system[C]. New Orleans:NACE Annual Corrosion Conference & Exposition,2017:9260.
[9] SOUTHEY R D,RUAN W,DAWALIBI F P. AC mitigation requirements:a parametric analysis[C]. Houston:NACE Annual Corrosion Conference & Exposition,2001:01604.
[10] SOUTHEY R D,DAWALIBI F P,VUKONICH W. Recent advances in the mitigation of AC voltages occurring in pipelines located close to electric transmission lines[J]. IEEE Transactions on Power Delivery,1994,9(2):1090-1097.
[11] AGHABARATI A,MOINIR,FORTINS. Electromagnetic shielding analysis of spherical polyhedral structures generated by conducting wires and metallic surfaces[J]. IEEE Transactions on Electromagnetic Compatibility,2017,59(4):1285-1293.
[12] LADAN S,AGHABARATI A,MOINI R,et al. Induced disturbances by high voltage transmission lines on nearby stationary vehicles[C]. Ottawa:2016 IEEE International Symposium on Electromagnetic Compatibility,2016:16336618.
[13] KIM D K,MURALIDHARAN S,HA T H,e t a l . Electrochemical studies on the alternating current corrosion of mild steel under cathodic condition in marine environments[J]. Electrochimica Acta,2006,51(25):5259-5267.
[14] KIM D K,HA T H,HA Y C,et al. Alternating current induced corrosion[J]. Corrosion Engineering,Science and Technology, 2004,39(2):117-123.
[15] FU A Q,CHENG Y F. Corrosion of pipeline steel in the presence of alternating current and the new CP recommendation[C]. Calgary:International Pipeline Conference,2010:64380.
[16] TANG D,DU Y,LU M,et al. Study on CP criteria for mild steel in the presence of AC interference[C]. San Antonio: NACE Annual Corrosion Conference & Exposition,2014:3802.
[17] HOSOKAWA Y,KAJIYAMA F. New CP maintenance concept for buried steel pipelines-current density-based CP criteria,and on-line surveillance system for CP rectifiers[C]. New Orleans:NACE Annual Corrosion Conference & Exposition,2004:04047.
[18] HOSOKAWA Y, KAJIYAMA F. Case studies on the assessment of AC and DC interference using steel coupons with respect to current density CP criteria[C]. San Diego:NACE Annual Corrosion Conference & Exposition,2006:06161.
[19] Hall C. Pipelines and power lines:Assessing AC interference[J]. World pipelines,2016,16(11):30-32,34.
[20] KHOSRAVI J. AC interference effects on cathodically protected pipeline and its control[C]. Stockholm:European corrosion congress,2011:1305-1319.
[21] HAYDEN J L R. Alternating-current electrolysis[J]. American Institute of Electrical Engineers,1907,26(1):201-229.
[22] MCCOLLUM B,AHLBORN G H. The influence of frequency of alternating or infrequently reversed current on electrolytic corrosion[J]. Institute of Electrical Engineers,1916,35(1): 301-345.
[23] MICU D D,CHRISTOFORIDIS G C,CZUMBIL L. AC interference on pipelines due to double circuit power lines:A detailed study[J]. Electric Power Systems Research,2013, 103(10):1-8.
[24] OSBOURNE T. AC corrosion on pipelines[J]. Loss prevention bulletin,2002(163):15-19.

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备注/Memo

作者简介:宋丽敏,男,1987 年生,工程师,2009 年毕业于东北电力大学输电线路工程专业,现主要从事基建工程项目的管理工作。地址:广东省佛山市汾江南路1 号,528000,电话:0757-82863673。Email:1045275646@qq.com
编辑:徐海红

更新日期/Last Update: 2019-10-25