Evaluation of the synthetic inertia control using active damping method
The current and massive deployment of non-synchronous generation is degrading the inertial response in power systems. The addition of an extra control loop, the so-called synthetic inertia, can contribute in the improvement of the frequency response, through an additional power injection. In this pa...
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2017
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rr-article-95558662017-01-01T00:00:00Z Evaluation of the synthetic inertia control using active damping method Harold R. Chamorro (7204892) Naveed R. Malik (7209875) Francisco Gonzalez-Longatt (1249602) Vijay K. Sood (7204904) Mechanical engineering not elsewhere classified Synthetic inertia Frequency response Non-synchronous generation integration Renewable integration Active damping Closed current-control loop Mechanical Engineering not elsewhere classified The current and massive deployment of non-synchronous generation is degrading the inertial response in power systems. The addition of an extra control loop, the so-called synthetic inertia, can contribute in the improvement of the frequency response, through an additional power injection. In this paper, the active damping method is used to enhance both, the closed-loop current control and the synthetic inertia control loop. A full aggregated model of a wind turbine generator (WTG) is integrated in a test system. The results obtained show an increase in the power injected into the grid, thereby improving the frequency response after a frequency disturbance. Moreover, the response of the closed current-control loop and voltage loop are presented, in order to show their interaction with the synthetic inertia control. 2017-01-01T00:00:00Z Text Conference contribution 2134/25774 https://figshare.com/articles/conference_contribution/Evaluation_of_the_synthetic_inertia_control_using_active_damping_method/9555866 CC BY-NC-ND 4.0 |
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Mechanical engineering not elsewhere classified Synthetic inertia Frequency response Non-synchronous generation integration Renewable integration Active damping Closed current-control loop Mechanical Engineering not elsewhere classified |
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Mechanical engineering not elsewhere classified Synthetic inertia Frequency response Non-synchronous generation integration Renewable integration Active damping Closed current-control loop Mechanical Engineering not elsewhere classified Harold R. Chamorro Naveed R. Malik Francisco Gonzalez-Longatt Vijay K. Sood Evaluation of the synthetic inertia control using active damping method |
description |
The current and massive deployment of non-synchronous generation is degrading the inertial response in power systems. The addition of an extra control loop, the so-called synthetic inertia, can contribute in the improvement of the frequency response, through an additional power injection. In this paper, the active damping method is used to enhance both, the closed-loop current control and the synthetic inertia control loop. A full aggregated model of a wind turbine generator (WTG) is integrated in a test system. The results obtained show an increase in the power injected into the grid, thereby improving the frequency response after a frequency disturbance. Moreover, the response of the closed current-control loop and voltage loop are presented, in order to show their interaction with the synthetic inertia control. |
format |
Default Conference proceeding |
author |
Harold R. Chamorro Naveed R. Malik Francisco Gonzalez-Longatt Vijay K. Sood |
author_facet |
Harold R. Chamorro Naveed R. Malik Francisco Gonzalez-Longatt Vijay K. Sood |
author_sort |
Harold R. Chamorro (7204892) |
title |
Evaluation of the synthetic inertia control using active damping method |
title_short |
Evaluation of the synthetic inertia control using active damping method |
title_full |
Evaluation of the synthetic inertia control using active damping method |
title_fullStr |
Evaluation of the synthetic inertia control using active damping method |
title_full_unstemmed |
Evaluation of the synthetic inertia control using active damping method |
title_sort |
evaluation of the synthetic inertia control using active damping method |
publishDate |
2017 |
url |
https://hdl.handle.net/2134/25774 |
_version_ |
1797373504208764928 |