Transient analysis of interline dynamic voltage restorer using dynamic phasor representation

Research output: Contribution to conferencePaper

Abstract

Computer planning and simulation of power systems require system components to be represented mathematically. A method for building a dynamic phasor model of an Interline Dynamic Voltage Restorer (IDVR) is presented, and the resulting model is tested in a simple radial distribution system. Mathematical analysis is carried out for each individual component of the IDVR as modular models, which are then aggregated to generate the final model. The proposed technique has the advantage of simplifying the modelling of any flexible AC transmission system (FACTS) device in dynamic phasor mode when compared to other modelling techniques reported in the literature. The IDVR, including the series injection transformer, is analysed in both ABC and DQ dynamic phasor modes, and IDVR power management is also presented. The ensure compatibility with transient stability programs, the analysis is performed for the fundamental frequency only, with other frequency components being truncated and without considering harmonics. Results produced by the IDVR dynamic phasor model are validated by comparison with results gained from a detailed MATLAB/Simulink IDVR model.

Conference

ConferenceThe Seventeenth IEEE Workshop on Control and Modeling for Power Electronics
Abbreviated titleCOMPEL 2016
CountryNorway
CityTrondheim
Period27/06/1630/06/16
Internet address

Fingerprint

Transient analysis
Electric potential
MATLAB
Planning

Keywords

  • interline dynamic voltage restorer
  • generalised average modelling
  • dynamic phasor model
  • detailed model
  • Park’s transformation

Cite this

Abojlala, K. I., Holliday, D., & Xu, L. (Accepted/In press). Transient analysis of interline dynamic voltage restorer using dynamic phasor representation. Paper presented at The Seventeenth IEEE Workshop on Control and Modeling for Power Electronics, Trondheim, Norway.
Abojlala, Khaled Issa ; Holliday, Derrick ; Xu, Lie. / Transient analysis of interline dynamic voltage restorer using dynamic phasor representation. Paper presented at The Seventeenth IEEE Workshop on Control and Modeling for Power Electronics, Trondheim, Norway.8 p.
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title = "Transient analysis of interline dynamic voltage restorer using dynamic phasor representation",
abstract = "Computer planning and simulation of power systems require system components to be represented mathematically. A method for building a dynamic phasor model of an Interline Dynamic Voltage Restorer (IDVR) is presented, and the resulting model is tested in a simple radial distribution system. Mathematical analysis is carried out for each individual component of the IDVR as modular models, which are then aggregated to generate the final model. The proposed technique has the advantage of simplifying the modelling of any flexible AC transmission system (FACTS) device in dynamic phasor mode when compared to other modelling techniques reported in the literature. The IDVR, including the series injection transformer, is analysed in both ABC and DQ dynamic phasor modes, and IDVR power management is also presented. The ensure compatibility with transient stability programs, the analysis is performed for the fundamental frequency only, with other frequency components being truncated and without considering harmonics. Results produced by the IDVR dynamic phasor model are validated by comparison with results gained from a detailed MATLAB/Simulink IDVR model.",
keywords = "interline dynamic voltage restorer, generalised average modelling, dynamic phasor model, detailed model, Park’s transformation",
author = "Abojlala, {Khaled Issa} and Derrick Holliday and Lie Xu",
year = "2016",
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language = "English",
note = "The Seventeenth IEEE Workshop on Control and Modeling for Power Electronics, COMPEL 2016 ; Conference date: 27-06-2016 Through 30-06-2016",
url = "http://sites.ieee.org/compel2016/",

}

Abojlala, KI, Holliday, D & Xu, L 2016, 'Transient analysis of interline dynamic voltage restorer using dynamic phasor representation' Paper presented at The Seventeenth IEEE Workshop on Control and Modeling for Power Electronics, Trondheim, Norway, 27/06/16 - 30/06/16, .

Transient analysis of interline dynamic voltage restorer using dynamic phasor representation. / Abojlala, Khaled Issa; Holliday, Derrick; Xu, Lie.

2016. Paper presented at The Seventeenth IEEE Workshop on Control and Modeling for Power Electronics, Trondheim, Norway.

Research output: Contribution to conferencePaper

TY - CONF

T1 - Transient analysis of interline dynamic voltage restorer using dynamic phasor representation

AU - Abojlala, Khaled Issa

AU - Holliday, Derrick

AU - Xu, Lie

PY - 2016/4/7

Y1 - 2016/4/7

N2 - Computer planning and simulation of power systems require system components to be represented mathematically. A method for building a dynamic phasor model of an Interline Dynamic Voltage Restorer (IDVR) is presented, and the resulting model is tested in a simple radial distribution system. Mathematical analysis is carried out for each individual component of the IDVR as modular models, which are then aggregated to generate the final model. The proposed technique has the advantage of simplifying the modelling of any flexible AC transmission system (FACTS) device in dynamic phasor mode when compared to other modelling techniques reported in the literature. The IDVR, including the series injection transformer, is analysed in both ABC and DQ dynamic phasor modes, and IDVR power management is also presented. The ensure compatibility with transient stability programs, the analysis is performed for the fundamental frequency only, with other frequency components being truncated and without considering harmonics. Results produced by the IDVR dynamic phasor model are validated by comparison with results gained from a detailed MATLAB/Simulink IDVR model.

AB - Computer planning and simulation of power systems require system components to be represented mathematically. A method for building a dynamic phasor model of an Interline Dynamic Voltage Restorer (IDVR) is presented, and the resulting model is tested in a simple radial distribution system. Mathematical analysis is carried out for each individual component of the IDVR as modular models, which are then aggregated to generate the final model. The proposed technique has the advantage of simplifying the modelling of any flexible AC transmission system (FACTS) device in dynamic phasor mode when compared to other modelling techniques reported in the literature. The IDVR, including the series injection transformer, is analysed in both ABC and DQ dynamic phasor modes, and IDVR power management is also presented. The ensure compatibility with transient stability programs, the analysis is performed for the fundamental frequency only, with other frequency components being truncated and without considering harmonics. Results produced by the IDVR dynamic phasor model are validated by comparison with results gained from a detailed MATLAB/Simulink IDVR model.

KW - interline dynamic voltage restorer

KW - generalised average modelling

KW - dynamic phasor model

KW - detailed model

KW - Park’s transformation

M3 - Paper

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Abojlala KI, Holliday D, Xu L. Transient analysis of interline dynamic voltage restorer using dynamic phasor representation. 2016. Paper presented at The Seventeenth IEEE Workshop on Control and Modeling for Power Electronics, Trondheim, Norway.