Evaluation of DC-Subway Stray Current Corrosion With Integrated Multi-Physical Modeling and Electrochemical Analysis

Cai, Zhichao; Zhang, Xianwei; Cheng, Hao

doi:10.1109/access.2019.2953960

Cited by 35 publications

(9 citation statements)

References 19 publications

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“…At present, simulation models of RP and SC are studied by many scholars. In order to analyse the influence of environmental factors, such as soil structure and tunnel structure, on the distribution of SC, scholars build 3D simulation models of DC RS using the object‐based modelling method [6–9]. Lin et al.…”

Section: Introductionmentioning

confidence: 99%

Multi‐state unified calculation model of rail potential and stray current in DC railway systems

Zheng

et al. 2023

IET Electrical Syst in Trans

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In order to calculate the dynamic distribution of rail potential and stray current accurately, a multi‐state unified calculation model of rail potential and stray current is proposed, and the characteristics of different protection devices and reflux system in multi‐state DC railway systems are analysed. In the proposed model, the multi‐state characteristics of the traction substation, train, protection devices and reflux system are uniformly simulated by unified node models. The mixed simulation parameters of the catenary and reflux system are unified to lumped parameter networks, and the multi‐node voltage equations are established based on the simulation model. Then, the power flow of DC railway systems is calculated using an iterative solution, and the dynamic distribution of rail potential and stray current are solved by differential equations. The multi‐state unified calculation model is built and the distribution of rail potential and stray current in different conditions are simulated based on the parameters of Wuxi Subway Line 2. In order to verify the multi‐state unified calculation model proposed, field tests and simulations are carried out. Results show that the multi‐state unified calculation model can unify the complex states of DC railway systems and calculate the distribution of rail potential and stray current accurately.

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Section: Introductionmentioning

confidence: 99%

Multi‐state unified calculation model of rail potential and stray current in DC railway systems

Zheng

et al. 2023

IET Electrical Syst in Trans

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“…In addition, various models are established to analyze the law and trend of the buried metal corrosion caused by the stray current. For example, by establishing a multi-physical finite element model of DC metro traction system, the dynamic process of the buried pipeline corrosion caused by stray current is calculated, and the corrosion rate change and corrosion trend of stray current are analyzed [14]. By establishing a segment corrosion calculation model including the track bed structure, the reinforcement corrosion problem caused by DC stray current in the cracked section of the shield tunnel is studied, and the potential distribution and reinforcement corrosion law in the cracked section under different input and output positions are obtained [15].…”

Section: Introductionmentioning

confidence: 99%

Effect of Soil Salt Content on Stray Current Corrosion of Buried Metal

Jiao

Wang

et al. 2022

IEEE Access

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In order to study the effect of soil salt content on the corrosion of buried metal by the stray current in urban rail transit, a small experimental platform for the buried metal corrosion is built. The corrosion rate and mass loss of buried carbon steel specimens in soil samples with or without DC stray current are measured and calculated when different content of NaCl is added into the soil samples, respectively. The experimental results show that the corrosion rate and mass loss of the buried metal increase with the increase of soil salt content. DC stray current will aggravate the corrosion of the buried metal. The corrosion degree of buried metal will be seriously aggravated under the coupling action of DC stray current and salt. When there is no DC stray curren, the corrosion degree of buried metal is relatively small, and the influence of soil salt content on the buried metal corrosion is also relatively small. Finally, a multiphysics simulation model corresponding to the experiment is established to verify the experimental results. The simulation results are basically consistent with the experimental results, which proves the accuracy of the experimental results. The research results can provide a theoretical basis for the corrosion protection design of subway stray current.

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“…Most of these have focused on stray current interference caused by electric railways, urban rail traction systems, electric welding equipment, and high-voltage transmission lines. However, research on stray currents generated by ICCP systems with deep-well anode beds has been limited and has mainly focused on the following two aspects [21][22][23][24][25][26] : (1) The factors influencing stray current interference and (2) the effect of stray current on the protection potential and current distribution along unprotected pipelines. [27] Metwally and Al-Badi [23] discussed the influence of soil conductivity and pipeline polarization on stray current corrosion of unprotected pipelines in the vicinity of the anode bed in a cathodic protection system.…”

Section: Introductionmentioning

confidence: 99%

Effect of electrified surface casing on the interference characteristics of stray current generated by deep‐well anode beds

Cen

Dai

Huang

et al. 2022

Materials & Corrosion

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Currently, the impressed current cathodic protection with deep-well anode beds has been found that the surface casing was charged. In this study, 13 deep-well anode beds were selected randomly to investigate whether their surface casings were electrified. Possible causes of the electrification of surface casings are also discussed. A numerical model for simulating the geoelectric field of a representative deep-well anode bed with an electrified surface casing was established and validated by data from on-site testing. The difference | © 2022 Wiley-VCH GmbH.

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Evaluation of DC-Subway Stray Current Corrosion With Integrated Multi-Physical Modeling and Electrochemical Analysis

Cited by 35 publications

References 19 publications

Multi‐state unified calculation model of rail potential and stray current in DC railway systems

Multi‐state unified calculation model of rail potential and stray current in DC railway systems

Effect of Soil Salt Content on Stray Current Corrosion of Buried Metal

Effect of electrified surface casing on the interference characteristics of stray current generated by deep‐well anode beds

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