Voltage regulation during short-circuit faults in low voltage distributed generation systems

As the penetration of inverter-based distributed generations into microgrids continues to rise, the significance of power electronic inverters in modern power systems becomes increasingly pronounced. They are designed to have fault ride-through capabilities, enabling them to sustain operation even d...

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Published inElectric power systems research Vol. 234; p. 110596
Main Authors Döhler, Jéssica S., Eriksson, Robert, Oliveira, Janaína G., Boström, Cecilia
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2024
Subjects
Ancillary services
Fault detection
Grid-supporting inverter
Low-voltage system
Short circuit
Voltage support
Low-voltage system
Short circuit
Fault detection
Voltage support
Grid-supporting inverter
Ancillary services
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Abstract As the penetration of inverter-based distributed generations into microgrids continues to rise, the significance of power electronic inverters in modern power systems becomes increasingly pronounced. They are designed to have fault ride-through capabilities, enabling them to sustain operation even during and after fault conditions. This paper presents a novel voltage compensation strategy based on the line impedances addressing both positive and negative-sequence aspects, for a three-phase three-wire inverter deployed to regulate the low-voltage network during unsymmetrical faults, thereby preserving voltage stability. The control strategy is carried out in a synchronous reference frame (dq) to govern the positive and negative-sequence voltages and currents of the inverter. By synthesizing AC currents, the inverter restores the positive-sequence voltage to its rated value while mitigating negative-sequence voltage at the point of common coupling arising from unsymmetrical faults. Through MATLAB/Simulink, are investigated three unsymmetrical fault scenarios (single line-to-ground, line-to-line, and double line-to-ground faults) within the low-voltage distribution network of the 18-bus European Cigré, incorporating three inverters equipped with the proposed voltage support capability. The results confirm that inverter-interfaced distributed generators with local voltage support can improve the system’s fault ride-through capability by reducing voltage drops and unbalances. •Voltage resilience in the face of short-circuit challenges.•Balancing voltage fluctuations during grid faults.•Grid-supporting inverters optimize fault response.
AbstractList As the penetration of inverter-based distributed generations into microgrids continues to rise, the significance of power electronic inverters in modern power systems becomes increasingly pronounced. They are designed to have fault ride-through capabilities, enabling them to sustain operation even during and after fault conditions. This paper presents a novel voltage compensation strategy based on the line impedances addressing both positive and negative-sequence aspects, for a three-phase three-wire inverter deployed to regulate the low-voltage network during unsymmetrical faults, thereby preserving voltage stability. The control strategy is carried out in a synchronous reference frame (dq) to govern the positive and negative-sequence voltages and currents of the inverter. By synthesizing AC currents, the inverter restores the positive-sequence voltage to its rated value while mitigating negative-sequence voltage at the point of common coupling arising from unsymmetrical faults. Through MATLAB/Simulink, are investigated three unsymmetrical fault scenarios (single line-to-ground, line-to-line, and double line-to-ground faults) within the low-voltage distribution network of the 18-bus European Cigré, incorporating three inverters equipped with the proposed voltage support capability. The results confirm that inverter-interfaced distributed generators with local voltage support can improve the system’s fault ride-through capability by reducing voltage drops and unbalances. •Voltage resilience in the face of short-circuit challenges.•Balancing voltage fluctuations during grid faults.•Grid-supporting inverters optimize fault response.
ArticleNumber 110596
Author Döhler, Jéssica S.
Eriksson, Robert
Boström, Cecilia
Oliveira, Janaína G.
Author_xml – sequence: 1
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  givenname: Robert
  surname: Eriksson
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  givenname: Janaína G.
  surname: Oliveira
  fullname: Oliveira, Janaína G.
  organization: Division of Electricity, Department of Electrical Engineering, Uppsala University, Sweden
– sequence: 4
  givenname: Cecilia
  surname: Boström
  fullname: Boström, Cecilia
  organization: Division of Electricity, Department of Electrical Engineering, Uppsala University, Sweden
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Keywords Low-voltage system
Short circuit
Fault detection
Voltage support
Grid-supporting inverter
Ancillary services
Language English
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Snippet As the penetration of inverter-based distributed generations into microgrids continues to rise, the significance of power electronic inverters in modern power...
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StartPage 110596
SubjectTerms Ancillary services
Fault detection
Grid-supporting inverter
Low-voltage system
Short circuit
Voltage support
Title Voltage regulation during short-circuit faults in low voltage distributed generation systems
URI https://dx.doi.org/10.1016/j.epsr.2024.110596
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