Simulation on Operating Overvoltage of Dropping Pantograph Based on Pantograph–Catenary Arc and Variable Capacitance Model
When the electric locomotive pantograph is dropping, the interruption of pantograph catenary contact causes electromagnetic oscillation and arcing. The frequent arc burning that occurs due to charge accumulation results in the amplitude of overvoltage increasing gradually, posing a threat to locomot...
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| Published in | Applied sciences Vol. 14; no. 16; p. 6861 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
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MDPI AG
01.08.2024
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| Abstract | When the electric locomotive pantograph is dropping, the interruption of pantograph catenary contact causes electromagnetic oscillation and arcing. The frequent arc burning that occurs due to charge accumulation results in the amplitude of overvoltage increasing gradually, posing a threat to locomotive high-voltage equipment. However, the physical mechanisms and characteristics of overvoltage are still unclear. This paper proposes a simulation model of operating overvoltage due to a dropping pantograph based on the pantograph–catenary arc and variable capacitance. Distributed RLC electromagnetic oscillation is considered, which allows the real-time calculation of arc resistance and capacitance. Under the same working conditions, the error between the simulation and test results is less than 4.0%, which proves the credibility of the model. The variation law of overvoltage under different dropping speeds or catenary phases was investigated, which shows the max amplitude is 298.20 kV and steepness is 2096.80 kV/μs at 0.30 m/s speed. The waveform shows the characteristics of high amplitude and high steepness, similar to very fast transient overvoltage (VFTO). There is a sinusoidal relationship between the catenary phase and overvoltage amplitude. The closer the catenary phase to 90°, the higher the overvoltage amplitude. The research has important guiding significance for the overvoltage formation mechanism of a traction power supply system and the insulation coordination design of high-voltage equipment. |
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| AbstractList | When the electric locomotive pantograph is dropping, the interruption of pantograph catenary contact causes electromagnetic oscillation and arcing. The frequent arc burning that occurs due to charge accumulation results in the amplitude of overvoltage increasing gradually, posing a threat to locomotive high-voltage equipment. However, the physical mechanisms and characteristics of overvoltage are still unclear. This paper proposes a simulation model of operating overvoltage due to a dropping pantograph based on the pantograph–catenary arc and variable capacitance. Distributed RLC electromagnetic oscillation is considered, which allows the real-time calculation of arc resistance and capacitance. Under the same working conditions, the error between the simulation and test results is less than 4.0%, which proves the credibility of the model. The variation law of overvoltage under different dropping speeds or catenary phases was investigated, which shows the max amplitude is 298.20 kV and steepness is 2096.80 kV/μs at 0.30 m/s speed. The waveform shows the characteristics of high amplitude and high steepness, similar to very fast transient overvoltage (VFTO). There is a sinusoidal relationship between the catenary phase and overvoltage amplitude. The closer the catenary phase to 90°, the higher the overvoltage amplitude. The research has important guiding significance for the overvoltage formation mechanism of a traction power supply system and the insulation coordination design of high-voltage equipment. |
| Audience | Academic |
| Author | Yin, Yufeng Tian, Fuqiang Guo, Yike Jiang, Dazuo Liu, Hongqi Zou, Huanqing |
| Author_xml | – sequence: 1 givenname: Dazuo surname: Jiang fullname: Jiang, Dazuo – sequence: 2 givenname: Huanqing surname: Zou fullname: Zou, Huanqing – sequence: 3 givenname: Yike surname: Guo fullname: Guo, Yike – sequence: 4 givenname: Fuqiang surname: Tian fullname: Tian, Fuqiang – sequence: 5 givenname: Hongqi surname: Liu fullname: Liu, Hongqi – sequence: 6 givenname: Yufeng surname: Yin fullname: Yin, Yufeng |
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| References | Lv (ref_6) 2016; 52 Hu (ref_20) 2018; 44 ref_14 ref_13 ref_11 ref_10 Wang (ref_18) 1991; 4 ref_1 ref_3 ref_2 ref_19 Wu (ref_12) 2008; 2 ref_17 ref_16 ref_15 Jiang (ref_21) 2015; 35 ref_9 ref_8 ref_5 ref_4 ref_7 |
| References_xml | – ident: ref_8 doi: 10.1109/ICHVE.2016.7800795 – ident: ref_4 – ident: ref_5 – volume: 44 start-page: 3980 year: 2018 ident: ref_20 article-title: Research on Pantograph Arcing during the Pantograph dropping Process Based on the Spectral Diagnosis publication-title: High Volt. Eng. – ident: ref_3 – volume: 52 start-page: 1 year: 2016 ident: ref_6 article-title: Overvoltage in CRH Reactor Lifting Process and Simulation Analysis of Restraining Measures publication-title: High Volt. Appar. – ident: ref_2 – ident: ref_10 – ident: ref_11 – volume: 35 start-page: 5367 year: 2015 ident: ref_21 article-title: Effects of Contact Materials and Diameters on Characteristics of Intermediate-frequency Vacuum Arc in Axial Magnetic Field publication-title: Proc. CSEE – ident: ref_16 – ident: ref_15 – ident: ref_13 – ident: ref_14 – ident: ref_9 doi: 10.1109/CIEEC54735.2022.9846469 – ident: ref_17 – ident: ref_1 – ident: ref_19 – ident: ref_7 doi: 10.1109/ICHVE53725.2022.9961767 – volume: 2 start-page: 27 year: 2008 ident: ref_12 article-title: Occurrence of Arc in Pantograph and Catenary System and Interference publication-title: Electr. Railw. – volume: 4 start-page: 39 year: 1991 ident: ref_18 article-title: The Development of Arc Phenomenon Models publication-title: High Volt. Appar. |
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| SubjectTerms | Analysis arc model Electric vehicles Electrical equipment and supplies Electrical machinery electromagnetic oscillation Electromagnetism Locomotives operating overvoltage of dropping pantograph Simulation Simulation methods variable capacitance |
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| Title | Simulation on Operating Overvoltage of Dropping Pantograph Based on Pantograph–Catenary Arc and Variable Capacitance Model |
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