Experiment research of dynamic stray current interference on buried gas pipeline from urban rail transit

Abstract Stray current corrosion (SCC) is the most severe form of electrochemical corrosion to buried metallic structure. With the development of rail transportation and gas industry, the SCC of buried gas pipelines is becoming more serious in china. In this paper, principle and characteristic of Stray Current (SC) resulting from rail transit system were introduced. Presently available SC testing methods, equipment, and determination standards in china were summarized. For an underground gas pipeline located in the neighboring area and parallel to the rail transit in Shanghai, pipe-to-soil potential, potential gradient of soil, current within pipeline were measured during different operation time of rail transit with a self-made SC monitoring system based upon virtual instrument. Result shows that pipe-to-soil potential fluctuation of the tested gas pipeline is 200 mV, current within pipeline and potential gradient of soil is 100 mA, and 62 mV/m respectively, which is consistent with the operation of rail transit, serious corrosion of the buried gas pipeline may occur. Through theoretical Analysis, several protective measures were introduced.

[1]  P. Pignatelli Stray current corrosion on underground utilities. A case history , 1985 .

[2]  L. Bertolini,et al.  Corrosion behaviour of steel in concrete in the presence of stray current , 2007 .

[3]  Charalambos A. Charalambous,et al.  Stray current control in DC mass transit systems , 2005, IEEE Transactions on Vehicular Technology.

[4]  Xu Guang Scheme and application of stray current scene monitoring system of DaLian rapid railway line 3 , 2003 .

[5]  Yangjun Zhang,et al.  Design and application of a stray current monitoring system , 2010, 2010 International Conference on Computer, Mechatronics, Control and Electronic Engineering.

[6]  Seong-Min Lee,et al.  Evaluation of Stray Current Effect on the Cathodic Protection of Underground Pipeline , 1996 .

[7]  Chien-Hsing Lee,et al.  Assessment of grounding schemes on rail potential and stray currents in a DC transit system , 2006, IEEE Transactions on Power Delivery.

[8]  K. D. Pham,et al.  2001 IEEE/ASME JOINT RAIL CONFERENCE TORONTO, ONTARIO, CANADA April 17-19,2001 ANALYSIS OF STRAY CURRENT, TRACK-TO-EARTH POTENTIALS &SUBSTATION NEGATIVE GROUNDING IN DC TRACTION ELECTRIFICATION SYSTEM , 2001 .

[9]  Zhou Xiao,et al.  Experimental Study on Metro Stray Current Corrosion of Rebars in Reinforced Concrete , 1999 .

[10]  A. Cao,et al.  BP neural network predictive model for stray current density of a buried metallic pipeline , 2010 .

[11]  R. S. Thomas,et al.  Analysis of stray current, track-to-earth potentials and substation negative grounding in DC traction electrification system , 2001, Proceedings of the 2001 IEEE/ASME Joint Railroad Conference (Cat. No.01CH37235).

[12]  W.M. Sim,et al.  Stray current monitoring and control on Singapore MRT system , 2004, 2004 International Conference on Power System Technology, 2004. PowerCon 2004..

[13]  Lin Jiang Protection of Stray Current Corrosion in Metro , 2002 .