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Main Authors: Li, Ruofan, Sun, Qianhao, Chen, Qifang, Xia, Mingchao
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2407.15330
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_version_ 1866909263888121856
author Li, Ruofan
Sun, Qianhao
Chen, Qifang
Xia, Mingchao
author_facet Li, Ruofan
Sun, Qianhao
Chen, Qifang
Xia, Mingchao
contents The flexible traction power supply system (FTPSS) eliminates the neutral zone but leads to increased complexity in power flow coordinated control and power mismatch. To address these challenges, the methodology for power dispatch (PD) based on traction station clusters (TSCs) in FTPSS is proposed, in which each TSC with a consistent structure performs independent local phase angle control. First, to simplify the PD problem of TSCs, the system is transformed into an equivalent model with constant topology, resulting in it can be solved by univariate numerical optimization with higher computational performance. Next, the calculation method of the feasible phase angle domain under strict and relaxed power circulation constraints are described, respectively, which ensures that power circulation can be either eliminated or precisely controlled. Finally, the PD method with three unique modes for uncertain train loads is introduced to enhance power flow flexibility: specified power distribution coefficients between traction substations (TSs), constant output power of TSs, and maximum consumption of renewable resources within TSs. In the experimental section, the performance of the TSC methodology for PD is verified through detailed train operation scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2407_15330
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Methodology for Power Dispatch Based on Traction Station Clusters in the Flexible Traction Power Supply System
Li, Ruofan
Sun, Qianhao
Chen, Qifang
Xia, Mingchao
Systems and Control
The flexible traction power supply system (FTPSS) eliminates the neutral zone but leads to increased complexity in power flow coordinated control and power mismatch. To address these challenges, the methodology for power dispatch (PD) based on traction station clusters (TSCs) in FTPSS is proposed, in which each TSC with a consistent structure performs independent local phase angle control. First, to simplify the PD problem of TSCs, the system is transformed into an equivalent model with constant topology, resulting in it can be solved by univariate numerical optimization with higher computational performance. Next, the calculation method of the feasible phase angle domain under strict and relaxed power circulation constraints are described, respectively, which ensures that power circulation can be either eliminated or precisely controlled. Finally, the PD method with three unique modes for uncertain train loads is introduced to enhance power flow flexibility: specified power distribution coefficients between traction substations (TSs), constant output power of TSs, and maximum consumption of renewable resources within TSs. In the experimental section, the performance of the TSC methodology for PD is verified through detailed train operation scenarios.
title A Methodology for Power Dispatch Based on Traction Station Clusters in the Flexible Traction Power Supply System
topic Systems and Control
url https://arxiv.org/abs/2407.15330