Control of Stray Currents in Pipeline System based on Melnikov Theory
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- 英文论文题名:Control of Stray Currents in Pipeline System based on Melnikov Theory
- 论文作者:Peng Wang ; Bohu Li ; Guoqiang Shi ; Junhua Zhou
- 英文论文作者:Peng Wang ; Bohu Li ; Guoqiang Shi ; Junhua Zhou ; School of Automation Science and Electrical Engineering ; BeiHang University ; Beijing Complex Product Advanced Manufacturing Engineering Research Center ; Beijing Simulation Center ; State Key Laboratory of Intelligent Manufacturing System Technology ; Beijing Institute of Electronic System ; Science and Technology on Space System Simulation Laboratory ; Beijing Simulation Center
- 年:2017
- 作者机构:School of Automation Science and Electrical Engineering,BeiHang University;Beijing Complex Product Advanced Manufacturing Engineering Research Center,Beijing Simulation Center;State Key Laboratory of Intelligent Manufacturing System Technology,Beijing Institute of Electronic System;Science and Technology on Space System Simulation Laboratory,Beijing Simulation Center;
- 英文论文关键词:stray currents ; chaos ; control ; Melnikov
- 会议召开时间:2017-07-26
- 会议录名称:第36届中国控制会议论文集(A)
- 英文会议录名称:Proceedings of the 36th Chinese Control Conference(A)
- 语种:英文
- 分类号:TE973
- 学会代码:KZLL
- 会议名称:第36届中国控制会议
- 会议地点:中国辽宁大连
- 主办单位:中国自动化学会控制理论专业委员会
- 学会名称:中国自动化学会控制理论专业委员会
- 页数:4
- 文件大小:108k
- 原文格式:D
- 会议级别:全国
摘要
The pipeline network interfered by the stray currents has been verified to be a complex nonlinear dynamical system.This paper shows that the chaotic characteristic could be utilized in the stray currents control.To prove this,this paper establishes an equivalent chaotic control model.Then we analyze this model by using Melnikov method and find out the condition under which the chaotic phenomenon will be controlled.In order to get a sufficient proof for identifying the conclusion,simulation experiments are used to verify the validity of the control method.
The pipeline network interfered by the stray currents has been verified to be a complex nonlinear dynamical system.This paper shows that the chaotic characteristic could be utilized in the stray currents control.To prove this,this paper establishes an equivalent chaotic control model.Then we analyze this model by using Melnikov method and find out the condition under which the chaotic phenomenon will be controlled.In order to get a sufficient proof for identifying the conclusion,simulation experiments are used to verify the validity of the control method.
The pipeline network interfered by the stray currents has been verified to be a complex nonlinear dynamical system.This paper shows that the chaotic characteristic could be utilized in the stray currents control.To prove this,this paper establishes an equivalent chaotic control model.Then we analyze this model by using Melnikov method and find out the condition under which the chaotic phenomenon will be controlled.In order to get a sufficient proof for identifying the conclusion,simulation experiments are used to verify the validity of the control method.
引文
[1]Y.F.Ma,Y.L.LI,Analysis of the supply-demand status of China's natural gas to 2020.Petroleum Science,2010,7(1):132-135.
[2]B.Martin.A history of stray current corrosion.Corrosion&Materials,2006,31(3):12-14.
[3]L.H.Schwalm,J.G.Sandor.Stray current-the major cause of underground plant corrosion.Materials Perform,1969,(6):31-36.
[4]R.W.Shaffer.Design of DC powered rail transit systems minimizes tray currents.Materials Performance,1982,21(9):17-22.
[5]CIGRE,Guide On The Influence of High Voltage AC Power Systems on Metallic Pipelines.France:CIGRE,1995.
[6]B.Leslie,D.Johan and M.Calin,et al.A general applicable model for AC predictive and mitigation techniques for pipeline networks influenced by HV Power Lines.IEEE Transactions on power delivery,2006,21(1):210-217.
[7]A.Pulkkinen,A.Viljanen and K.Pajunpet al.Recordings and occurrence of geomagnetically induced currents in the Finnish natural gas pipeline network.Journal of Applied Geophysics,2001,48(4):219-231
[8]J.H.Liu,H.G.Zhang and J.Feng.Investigation of chaotic behavior for press time series of oil pipeline.Acta Phys.Sni,2008.57(11):6868-6877.
[9]L.H.Hu.Research on chaos characteristic of buried pipeline GIC,P/S and corrosion model.China University of Petroleum,Beijing:2013.29-30.
[10]Z.Y.Kong,S.H.Xu.The Fractal Character of Corrosion Steel Surface.Advanced Materials Research,2010,163-167:3150-3155.
[11]Z.S.Liang,P.Wang and L.H.Hu,et al.Chaotic Characteristic Study of GIC in Buried Steel Oil Pipeline[J].Acta Phys.Sni,2014,63(17):170505-170505.
[12]K.Darowicki,J.Orlikowski,J.Walaszkowski.Evaluation of the current output of polymer anodes used in cathodic protection.Corrosion Science,1998,40(6):931-937.
[13]T.M.Doniguian.Pulsed Rectifier Improves Cathodic Protection.Oil and GasJournal,1982,(30):221-229.
[14]T.Zhang,Z.Ren and B.Feng,et al.Study on Cathodic Protection Parameters for Gas Steel Pipes.Gas&Heat,1988.
[15]T.Shinbrot,E.Ott and C.Grebogi,et al.Using small perturbation to control chaos.Nature,1993,363,411-417
[16]X.B.Lin.Using Melnikov's method to solve Silnikov's problems.Proceedings of the Royal Society of Edinburgh,1990,116(3-4):295-325.
[2]B.Martin.A history of stray current corrosion.Corrosion&Materials,2006,31(3):12-14.
[3]L.H.Schwalm,J.G.Sandor.Stray current-the major cause of underground plant corrosion.Materials Perform,1969,(6):31-36.
[4]R.W.Shaffer.Design of DC powered rail transit systems minimizes tray currents.Materials Performance,1982,21(9):17-22.
[5]CIGRE,Guide On The Influence of High Voltage AC Power Systems on Metallic Pipelines.France:CIGRE,1995.
[6]B.Leslie,D.Johan and M.Calin,et al.A general applicable model for AC predictive and mitigation techniques for pipeline networks influenced by HV Power Lines.IEEE Transactions on power delivery,2006,21(1):210-217.
[7]A.Pulkkinen,A.Viljanen and K.Pajunpet al.Recordings and occurrence of geomagnetically induced currents in the Finnish natural gas pipeline network.Journal of Applied Geophysics,2001,48(4):219-231
[8]J.H.Liu,H.G.Zhang and J.Feng.Investigation of chaotic behavior for press time series of oil pipeline.Acta Phys.Sni,2008.57(11):6868-6877.
[9]L.H.Hu.Research on chaos characteristic of buried pipeline GIC,P/S and corrosion model.China University of Petroleum,Beijing:2013.29-30.
[10]Z.Y.Kong,S.H.Xu.The Fractal Character of Corrosion Steel Surface.Advanced Materials Research,2010,163-167:3150-3155.
[11]Z.S.Liang,P.Wang and L.H.Hu,et al.Chaotic Characteristic Study of GIC in Buried Steel Oil Pipeline[J].Acta Phys.Sni,2014,63(17):170505-170505.
[12]K.Darowicki,J.Orlikowski,J.Walaszkowski.Evaluation of the current output of polymer anodes used in cathodic protection.Corrosion Science,1998,40(6):931-937.
[13]T.M.Doniguian.Pulsed Rectifier Improves Cathodic Protection.Oil and GasJournal,1982,(30):221-229.
[14]T.Zhang,Z.Ren and B.Feng,et al.Study on Cathodic Protection Parameters for Gas Steel Pipes.Gas&Heat,1988.
[15]T.Shinbrot,E.Ott and C.Grebogi,et al.Using small perturbation to control chaos.Nature,1993,363,411-417
[16]X.B.Lin.Using Melnikov's method to solve Silnikov's problems.Proceedings of the Royal Society of Edinburgh,1990,116(3-4):295-325.
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