Haigang Zhang, Ming Yin, Haoqiang Zhou, Song Zeng, Zizhuo Wang, Junpeng Xu, Bulai Wang, Jinbai Zou
{"title":"High-frequency Resonance Suppression of Railway Traction Power Supply\nSystem Based on the Combination of Single-tuned and C-type Filters","authors":"Haigang Zhang, Ming Yin, Haoqiang Zhou, Song Zeng, Zizhuo Wang, Junpeng Xu, Bulai Wang, Jinbai Zou","doi":"10.2174/0122127976294622240314042341","DOIUrl":null,"url":null,"abstract":"\n\nRailroad transportation in the actual operation process, there are also\nmany dangerous accidents caused by resonance, which greatly affect the safety of railroad transportation.\nA comprehensive examination of the operational dynamics within the power branch of a\ntraction substation is imperative for sustaining system equilibrium. Discrepancies between these\nfacets pose a potential threat to the safety of railway transport. Thus, a meticulous analysis of highfrequency\nresonance characteristics and the formulation of effective suppression techniques become\nparamount.\n\n\n\nHarmonics from grid-side locomotive traction braking are scrutinized under different\noperational scenarios and different train runs. The aim is to develop an effective harmonic management\nstrategy to normalize the THD and thus maintain the traction power supply system to become\nmore stable.\n\n\n\nThis study investigates the high-frequency harmonic resonance characteristics using a\ncontrol variable approach. Harmonics and negative sequences generated during locomotive traction\nbraking under different operating conditions are investigated by means of extensive analysis. These\nchallenges require the implementation of a harmonic management method. This method uses a\ncombination of two monotonic filters and a C filter in parallel. This method applies to different operating\nconditions and can dynamically adapt harmonics to changes in the number of trains, which\nis related to the actual dynamics of the traction power system closely.\n\n\n\nA comparative evaluation of seven operating conditions shows that the filter in this patent\nexceeds the efficiency of existing methods. The filter reduces the fluctuations during spectral\nchanges, and the voltage distortion rate decreases from the previous 2.33% to 0.55%, making it\nmore adaptable and promising effective harmonic management in high voltage and high current\nsituations.\n\n\n\nThrough multiple simulation tests, a synergistic configuration involving the C-type\nfilter and two single-tuned parallel connections under regenerative braking conditions emerges.\nThis refined, patented filter design not only mitigates the impact of negative sequence during the\nfiltration process but also substantially diminishes high harmonics and THD.\n","PeriodicalId":39169,"journal":{"name":"Recent Patents on Mechanical Engineering","volume":" 87","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-04-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Recent Patents on Mechanical Engineering","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2174/0122127976294622240314042341","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Engineering","Score":null,"Total":0}
引用次数: 0
Abstract
Railroad transportation in the actual operation process, there are also
many dangerous accidents caused by resonance, which greatly affect the safety of railroad transportation.
A comprehensive examination of the operational dynamics within the power branch of a
traction substation is imperative for sustaining system equilibrium. Discrepancies between these
facets pose a potential threat to the safety of railway transport. Thus, a meticulous analysis of highfrequency
resonance characteristics and the formulation of effective suppression techniques become
paramount.
Harmonics from grid-side locomotive traction braking are scrutinized under different
operational scenarios and different train runs. The aim is to develop an effective harmonic management
strategy to normalize the THD and thus maintain the traction power supply system to become
more stable.
This study investigates the high-frequency harmonic resonance characteristics using a
control variable approach. Harmonics and negative sequences generated during locomotive traction
braking under different operating conditions are investigated by means of extensive analysis. These
challenges require the implementation of a harmonic management method. This method uses a
combination of two monotonic filters and a C filter in parallel. This method applies to different operating
conditions and can dynamically adapt harmonics to changes in the number of trains, which
is related to the actual dynamics of the traction power system closely.
A comparative evaluation of seven operating conditions shows that the filter in this patent
exceeds the efficiency of existing methods. The filter reduces the fluctuations during spectral
changes, and the voltage distortion rate decreases from the previous 2.33% to 0.55%, making it
more adaptable and promising effective harmonic management in high voltage and high current
situations.
Through multiple simulation tests, a synergistic configuration involving the C-type
filter and two single-tuned parallel connections under regenerative braking conditions emerges.
This refined, patented filter design not only mitigates the impact of negative sequence during the
filtration process but also substantially diminishes high harmonics and THD.
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