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- Title
Numerical Simulation of Pantograph‑Catenary Coupling De‑icing Based on Orthogonal Experiment Method.
- Authors
WU Lei; XU Mengnan; ZHANG Huapeng; WU Wei; DING Jianming
- Abstract
An investigation was conducted to examine the impact of the operating speed, ice thickness, pantograph head mass, pantograph head stiffness, and pantograph head damping on the de-icing rate. The investigation utilized the orthogonal experimental method and finite element simulation, employing a five-factor four-level orthogonal experimental design. Finite element models (FEM) were utilized to establish models for the ice-coating of the overhead contact system (OCS) and the coupling of the pantograph and catenary (PAC). The accuracy of the FEM was subsequently validated through a comparison between theoretical values and simulation results. The simulation results show that the operating speed and pantograph head mass have a significant impact on the contact force and contact wire lift amount, which in turn affects the de-icing rate. However, the influence of the pantograph head mass becomes less significant when it exceeds 17 kg. The results of the orthogonal experiment suggest that the de-icing rate is primarily influenced by the train speed, pantograph head mass, and ice thickness. The effects of pantograph head stiffness and damping are deemed insignificant. These results can provide references for improving train operation safety and PAC coupling de-icing technology.
- Subjects
COMPUTER simulation; PANTOGRAPH; FINITE element method; ICE prevention &; control; SIMULATION methods &; models
- Publication
Transactions of Nanjing University of Aeronautics & Astronautics, 2023, Vol 40, p29
- ISSN
1005-1120
- Publication type
Article
- DOI
10.16356/j.1005‑1120.2023.S1.003