Transient Stability Analysis of Wind‐Thermal Bundled Systems Under Sequential Filter Removal

ABSTRACT Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking faults, this paper proposes a coordinated control strategy for wind‐thermal unit tripping under sequential filter removal. This strategy is based o...

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Published inEngineering reports (Hoboken, N.J.) Vol. 7; no. 6
Main Authors Che, Di, Wang, Liang, Han, Xiufeng, Wei, Enyu
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.06.2025
Wiley
Subjects
filter
transient stability
wind‐thermal bundled systems
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ISSN2577-8196
2577-8196
DOI10.1002/eng2.70219

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Abstract ABSTRACT Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking faults, this paper proposes a coordinated control strategy for wind‐thermal unit tripping under sequential filter removal. This strategy is based on the principle that retaining partial filters can enhance system stability and aims to improve system stability while reducing total unit tripping. By establishing a grid architecture model for a southwestern region, introducing static stability constraints, transient stability constraints, and filter capacity constraints as stability criteria, the study seeks to minimize the total wind‐thermal unit tripping under DC blocking faults. Simulation results demonstrate that when the filter removal amount is 2610 MVar, the total wind‐thermal unit tripping in this model is minimized to 3480 MW. This further proves that sequential filter removal can reduce unit tripping, enhance system stability, and improve transmission capacity. These findings provide an important basis for system operation optimization. This paper proposes a coordinated control strategy for wind and thermal unit scheduling under filter ordered removal based on the principle that retaining part of the filter can enhance system stability. By establishing a grid architecture model, introducing static stability constraints, transient stability constraints, and filter capacity constraints, etc., the minimum wind and thermal unit curtailment under DC outage fault is sought. It is proved that the ordered removal of filters can further reduce the curtailment volume, enhance system stability and transmission capacity, and optimize system operation.
AbstractList ABSTRACT Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking faults, this paper proposes a coordinated control strategy for wind‐thermal unit tripping under sequential filter removal. This strategy is based on the principle that retaining partial filters can enhance system stability and aims to improve system stability while reducing total unit tripping. By establishing a grid architecture model for a southwestern region, introducing static stability constraints, transient stability constraints, and filter capacity constraints as stability criteria, the study seeks to minimize the total wind‐thermal unit tripping under DC blocking faults. Simulation results demonstrate that when the filter removal amount is 2610 MVar, the total wind‐thermal unit tripping in this model is minimized to 3480 MW. This further proves that sequential filter removal can reduce unit tripping, enhance system stability, and improve transmission capacity. These findings provide an important basis for system operation optimization.
ABSTRACT Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking faults, this paper proposes a coordinated control strategy for wind‐thermal unit tripping under sequential filter removal. This strategy is based on the principle that retaining partial filters can enhance system stability and aims to improve system stability while reducing total unit tripping. By establishing a grid architecture model for a southwestern region, introducing static stability constraints, transient stability constraints, and filter capacity constraints as stability criteria, the study seeks to minimize the total wind‐thermal unit tripping under DC blocking faults. Simulation results demonstrate that when the filter removal amount is 2610 MVar, the total wind‐thermal unit tripping in this model is minimized to 3480 MW. This further proves that sequential filter removal can reduce unit tripping, enhance system stability, and improve transmission capacity. These findings provide an important basis for system operation optimization. This paper proposes a coordinated control strategy for wind and thermal unit scheduling under filter ordered removal based on the principle that retaining part of the filter can enhance system stability. By establishing a grid architecture model, introducing static stability constraints, transient stability constraints, and filter capacity constraints, etc., the minimum wind and thermal unit curtailment under DC outage fault is sought. It is proved that the ordered removal of filters can further reduce the curtailment volume, enhance system stability and transmission capacity, and optimize system operation.
Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking faults, this paper proposes a coordinated control strategy for wind‐thermal unit tripping under sequential filter removal. This strategy is based on the principle that retaining partial filters can enhance system stability and aims to improve system stability while reducing total unit tripping. By establishing a grid architecture model for a southwestern region, introducing static stability constraints, transient stability constraints, and filter capacity constraints as stability criteria, the study seeks to minimize the total wind‐thermal unit tripping under DC blocking faults. Simulation results demonstrate that when the filter removal amount is 2610 MVar, the total wind‐thermal unit tripping in this model is minimized to 3480 MW. This further proves that sequential filter removal can reduce unit tripping, enhance system stability, and improve transmission capacity. These findings provide an important basis for system operation optimization.
Author Wei, Enyu
Che, Di
Han, Xiufeng
Wang, Liang
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Snippet ABSTRACT Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking...
Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking faults, this...
ABSTRACT Addressing issues such as insufficient transient stability and reduced transmission capacity in wind‐thermal bundled systems during DC blocking...
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transient stability
wind‐thermal bundled systems
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Title Transient Stability Analysis of Wind‐Thermal Bundled Systems Under Sequential Filter Removal
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