- ISSN 0258-2724
- CN 51-1277/U
- EI Compendex
- Scopus
- Indexed by Core Journals of China, Chinese S&T Journal Citation Reports
- Chinese S&T Journal Citation Reports
- Chinese Science Citation Database
| Citation: | LIU Wei, LI Songyuan, TANG Yuning. Simulation of Dynamic Coupling of Metro-Earth-Grid for DC Interference in Rail Transit[J]. Journal of Southwest Jiaotong University. doi: 10.3969/j.issn.0258-2724.20230052
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In response to the problem that direct current (DC) bias current of neutral grounded transformer is affected by dynamic stray current leakage and depot grounding of rail transit, a metro-earth-grid coupling model of stray current distribution and diffusion under multi-train operation was proposed, and the complex image method was used to calculate the earth potential. The self and mutual resistance coefficients of grounding grids were defined, and the coupling relationship between DC bias current and earth potential was proposed. The field-circuit coupling model of earth potential and DC bias current was built according to the topology of stray current intrusion path. A scaled-down simulation test of stray current intrusion into the grid for rail transit was designed, and tests and model calculation were conducted for verification. The results show that the maximum error between the experimental data and the model calculation data is 8.41%. The rail-to-earth transition resistance increases from 3.00 Ω·km to 15.00 Ω·km, and the absolute average of DC bias current decreases by 82.4%. Using a blocking connection device between the car depot and the main line can reduce DC bias current by 23.45% compared with using a unidirectional conduction device.
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