Investigations of grid-connected wind power system : low voltage ride through and power quality issues
This thesis presents an investigation on system architecture, control and analysis of wind turbine generators to improve grid integration performance. First of all, the main grid connection requirements have been reviewed in terms of safety operation of transmission systems as well as the wind turbi...
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sg-ntu-dr.10356-462972023-07-04T17:07:16Z Investigations of grid-connected wind power system : low voltage ride through and power quality issues Zhang, Shao Tseng King Jet School of Electrical and Electronic Engineering Centre for Smart Energy Systems DRNTU::Engineering::Electrical and electronic engineering::Electric power::Production, transmission and distribution This thesis presents an investigation on system architecture, control and analysis of wind turbine generators to improve grid integration performance. First of all, the main grid connection requirements have been reviewed in terms of safety operation of transmission systems as well as the wind turbine configurations. Due to these requirements, there have been conscious efforts made by wind turbine manufacturers to design grid compatible wind turbines, which are able to improve turbine operating performance and eliminate negative impacts on the utility, with features such as strong fault ride-through capability, flexible voltage regulation and good power quality performance. All these expectations provided the motivation to carry out the research described in this thesis. Doubly-fed induction generator (DFIG) wind turbine technology has been extensively applied by many turbine manufacturers due to the low cost of its partial-scale power electronics converter. However, enhancing ride-through capability under grid fault events has been worldwide recognized as a challenging problem of the DFIG-based wind generation systems. The operating principle and numerical simulation of DFIG-based wind turbine are thus reviewed, which give the fundamentals to analyze the essential behaviors during grid faults. Consequently, a ride-through enhancing solution is proposed based on series compensation principle. The compensator is in series with the stator windings of the DFIG in order to eliminate the impacts caused by grid voltage faults. Furthermore, an advanced ride-through control scheme based on ramp-function injection voltage is developed to significantly reduce the energy capacity requirement of the series compensator, which in turn reduces the capital cost. The performance of the developed architecture has been verified in simulation. DOCTOR OF PHILOSOPHY (EEE) 2011-11-29T03:09:46Z 2011-11-29T03:09:46Z 2011 2011 Thesis Zhang, S. (2011). Investigations of grid-connected wind power system : low voltage ride through and power quality issues. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/46297 10.32657/10356/46297 en 188 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Electric power::Production, transmission and distribution |
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DRNTU::Engineering::Electrical and electronic engineering::Electric power::Production, transmission and distribution Zhang, Shao Investigations of grid-connected wind power system : low voltage ride through and power quality issues |
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This thesis presents an investigation on system architecture, control and analysis of wind turbine generators to improve grid integration performance. First of all, the main grid connection requirements have been reviewed in terms of safety operation of transmission systems as well as the wind turbine configurations. Due to these requirements, there have been conscious efforts made by wind turbine manufacturers to design grid compatible wind turbines, which are able to improve turbine operating performance and eliminate negative impacts on the utility, with features such as strong fault ride-through capability, flexible voltage regulation and good power quality performance. All these expectations provided the motivation to carry out the research described in this thesis. Doubly-fed induction generator (DFIG) wind turbine technology has been extensively applied by many turbine manufacturers due to the low cost of its partial-scale power electronics converter. However, enhancing ride-through capability under grid fault events has been worldwide recognized as a challenging problem of the DFIG-based wind generation systems. The operating principle and numerical simulation of DFIG-based wind turbine are thus reviewed, which give the fundamentals to analyze the essential behaviors during grid faults. Consequently, a ride-through enhancing solution is proposed based on series compensation principle. The compensator is in series with the stator windings of the DFIG in order to eliminate the impacts caused by grid voltage faults. Furthermore, an advanced ride-through control scheme based on ramp-function injection voltage is developed to significantly reduce the energy capacity requirement of the series compensator, which in turn reduces the capital cost. The performance of the developed architecture has been verified in simulation. |
| author2 |
Tseng King Jet |
| author_facet |
Tseng King Jet Zhang, Shao |
| format |
Theses and Dissertations |
| author |
Zhang, Shao |
| author_sort |
Zhang, Shao |
| title |
Investigations of grid-connected wind power system : low voltage ride through and power quality issues |
| title_short |
Investigations of grid-connected wind power system : low voltage ride through and power quality issues |
| title_full |
Investigations of grid-connected wind power system : low voltage ride through and power quality issues |
| title_fullStr |
Investigations of grid-connected wind power system : low voltage ride through and power quality issues |
| title_full_unstemmed |
Investigations of grid-connected wind power system : low voltage ride through and power quality issues |
| title_sort |
investigations of grid-connected wind power system : low voltage ride through and power quality issues |
| publishDate |
2011 |
| url |
https://hdl.handle.net/10356/46297 |
| _version_ |
1772825638212730880 |