Low-Voltage Ride-Through of a Synchronous Generator-Based Variable Speed Grid-Interfaced Wind Energy Conversion System
Wind energy conversion systems (WECSs) based on synchronous generators devoid of rotor windings, such as permanent magnet synchronous generators and synchronous reluctance generators, have become popular due to their maintenance-free operation. As per grid codes, WECSs ought to stay connected, at le...
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| Vydáno v: | IEEE transactions on industry applications Ročník 56; číslo 1; s. 752 - 762 |
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| Hlavní autoři: | , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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New York
IEEE
01.01.2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
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| ISSN: | 0093-9994, 1939-9367 |
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| Abstract | Wind energy conversion systems (WECSs) based on synchronous generators devoid of rotor windings, such as permanent magnet synchronous generators and synchronous reluctance generators, have become popular due to their maintenance-free operation. As per grid codes, WECSs ought to stay connected, at least for a short while, to ensure reliability and stability, even if there is a fault in the grid. There are various techniques proposed in the literature, for implementing low-voltage ride-through (LVRT). This article explores a few methods for achieving LVRT for a synchronous machine-based WECS connected to the grid through a back-to-back connected full-rated converter. The machine-side converter is controlled by field-oriented control methodology to drive the generator at an optimum speed to harvest maximum power from the wind turbine. The grid-side converter makes use of the grid-voltage-oriented control algorithm to achieve decoupled control of real and reactive powers. The LVRT capability of the system is attained using four different control techniques, namely modulation index (MI) control, deloading, crow-bar protection, and interchanging the roles of the two converters to arrest the rise in dc-link voltage. These methods have been simulated in Simulink/MATLAB environment, and the results obtained show that these techniques work very effectively for realizing LVRT in a synchronous machine-based WECS. Finally, experimental results are presented to demonstrate the successful working of the maximum power point tracking algorithm and LVRT capability on a laboratory prototype; a comparison of LVRT techniques is presented to enable the users to make an informed choice. |
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| AbstractList | Wind energy conversion systems (WECSs) based on synchronous generators devoid of rotor windings, such as permanent magnet synchronous generators and synchronous reluctance generators, have become popular due to their maintenance-free operation. As per grid codes, WECSs ought to stay connected, at least for a short while, to ensure reliability and stability, even if there is a fault in the grid. There are various techniques proposed in the literature, for implementing low-voltage ride-through (LVRT). This article explores a few methods for achieving LVRT for a synchronous machine-based WECS connected to the grid through a back-to-back connected full-rated converter. The machine-side converter is controlled by field-oriented control methodology to drive the generator at an optimum speed to harvest maximum power from the wind turbine. The grid-side converter makes use of the grid-voltage-oriented control algorithm to achieve decoupled control of real and reactive powers. The LVRT capability of the system is attained using four different control techniques, namely modulation index (MI) control, deloading, crow-bar protection, and interchanging the roles of the two converters to arrest the rise in dc-link voltage. These methods have been simulated in Simulink/MATLAB environment, and the results obtained show that these techniques work very effectively for realizing LVRT in a synchronous machine-based WECS. Finally, experimental results are presented to demonstrate the successful working of the maximum power point tracking algorithm and LVRT capability on a laboratory prototype; a comparison of LVRT techniques is presented to enable the users to make an informed choice. |
| Author | Pillai, Rahul R. Basak, Rupam Bhuvaneswari, Gurumoorthy |
| Author_xml | – sequence: 1 givenname: Rupam orcidid: 0000-0002-5359-4872 surname: Basak fullname: Basak, Rupam email: rups.basak@gmail.com organization: Department of Electrical Engineering, Indian Institute of Technology Delhi, New Delhi, India – sequence: 2 givenname: Gurumoorthy orcidid: 0000-0002-0228-3687 surname: Bhuvaneswari fullname: Bhuvaneswari, Gurumoorthy email: bhuvan@ee.iitd.ac.in organization: Department of Electrical Engineering, Indian Institute of Technology Delhi, New Delhi, India – sequence: 3 givenname: Rahul R. surname: Pillai fullname: Pillai, Rahul R. email: rahul.r30@gmail.com organization: Department of Electrical Engineering, Indian Institute of Technology Delhi, New Delhi, India |
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| SubjectTerms | Algorithms Coils (windings) Computer simulation Control algorithms Control theory Converters Electric potential Energy conversion Exchanging Generators Grid-side converter (GSC) Low voltage low-voltage ride-through (LVRT) machine-side converter (MSC) Maximum power tracking permanent magnet synchronous generator (PMSG) Permanent magnets Reactive power Synchronous generators Synchronous machines synchronous reluctance machine (SyRM) Voltage Voltage control wind energy conversion system (WECS) Wind power Wind turbines |
| Title | Low-Voltage Ride-Through of a Synchronous Generator-Based Variable Speed Grid-Interfaced Wind Energy Conversion System |
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