A consecutive power dispatch in wind farms to mitigate secondary frequency dips
With the rapid increase of wind energy integrated into power systems, wind turbine generators (WTGs) are required to provide frequency support to maintain the system frequency stability. However, the frequency regulation is achieved by employing temporary energy reserves from WTGs at the initial sta...
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sg-ntu-dr.10356-1786552024-07-05T15:39:35Z A consecutive power dispatch in wind farms to mitigate secondary frequency dips Cheng, Yi Sun, Huadong Zhang, Yuyuan Xu, Shiyun Zhao, Bing Vorobev, Petr Terzija, Vladimir School of Electrical and Electronic Engineering Engineering Frequency support Over-deceleration With the rapid increase of wind energy integrated into power systems, wind turbine generators (WTGs) are required to provide frequency support to maintain the system frequency stability. However, the frequency regulation is achieved by employing temporary energy reserves from WTGs at the initial stage of a disturbance. Therefore, a second frequency dip (SFD) may occur, if no other energy reserve is available to compensate the power deficiency as WTGs have to recover their operating points and rotor speeds back to the initial operating points. To deal with this problem, this paper proposes a consecutive power dispatch scheme to reduce the SFD and prevent WTGs from over-deceleration. All WTGs are divided into two groups with in a wind farm: Group 1 (G1) WTGs operating at maximum power point tracking (MPPT), Group 2 (G2) WTGs operating at deloading power. If a frequency contingency occurs, the proposed scheme aims to release an amount of kinetic energy (KE) stored in the rotating masses of G1 WTGs to improve the frequency nadir (FN). Following this, energy reserves are released from G2 WTGs to compensate the power shortage during the period when G1 WTGs rotor speeds have to be recovered. The simulation results show that the scheme causes a small SFD while improving the first FN and preventing the rotor from over-decelerations in various wind conditions, contingency sizes, and wind penetration levels. Published version This paper was supported in part by National Natural Science Foundation of China under Grant U2166601. 2024-07-02T04:30:34Z 2024-07-02T04:30:34Z 2024 Journal Article Cheng, Y., Sun, H., Zhang, Y., Xu, S., Zhao, B., Vorobev, P. & Terzija, V. (2024). A consecutive power dispatch in wind farms to mitigate secondary frequency dips. International Journal of Electrical Power and Energy Systems, 158, 109939-. https://dx.doi.org/10.1016/j.ijepes.2024.109939 0142-0615 https://hdl.handle.net/10356/178655 10.1016/j.ijepes.2024.109939 2-s2.0-85188430983 158 109939 en International Journal of Electrical Power and Energy Systems © 2024 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/bync-nd/4.0/). application/pdf |
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Engineering Frequency support Over-deceleration |
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Engineering Frequency support Over-deceleration Cheng, Yi Sun, Huadong Zhang, Yuyuan Xu, Shiyun Zhao, Bing Vorobev, Petr Terzija, Vladimir A consecutive power dispatch in wind farms to mitigate secondary frequency dips |
| description |
With the rapid increase of wind energy integrated into power systems, wind turbine generators (WTGs) are required to provide frequency support to maintain the system frequency stability. However, the frequency regulation is achieved by employing temporary energy reserves from WTGs at the initial stage of a disturbance. Therefore, a second frequency dip (SFD) may occur, if no other energy reserve is available to compensate the power deficiency as WTGs have to recover their operating points and rotor speeds back to the initial operating points. To deal with this problem, this paper proposes a consecutive power dispatch scheme to reduce the SFD and prevent WTGs from over-deceleration. All WTGs are divided into two groups with in a wind farm: Group 1 (G1) WTGs operating at maximum power point tracking (MPPT), Group 2 (G2) WTGs operating at deloading power. If a frequency contingency occurs, the proposed scheme aims to release an amount of kinetic energy (KE) stored in the rotating masses of G1 WTGs to improve the frequency nadir (FN). Following this, energy reserves are released from G2 WTGs to compensate the power shortage during the period when G1 WTGs rotor speeds have to be recovered. The simulation results show that the scheme causes a small SFD while improving the first FN and preventing the rotor from over-decelerations in various wind conditions, contingency sizes, and wind penetration levels. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Cheng, Yi Sun, Huadong Zhang, Yuyuan Xu, Shiyun Zhao, Bing Vorobev, Petr Terzija, Vladimir |
| format |
Article |
| author |
Cheng, Yi Sun, Huadong Zhang, Yuyuan Xu, Shiyun Zhao, Bing Vorobev, Petr Terzija, Vladimir |
| author_sort |
Cheng, Yi |
| title |
A consecutive power dispatch in wind farms to mitigate secondary frequency dips |
| title_short |
A consecutive power dispatch in wind farms to mitigate secondary frequency dips |
| title_full |
A consecutive power dispatch in wind farms to mitigate secondary frequency dips |
| title_fullStr |
A consecutive power dispatch in wind farms to mitigate secondary frequency dips |
| title_full_unstemmed |
A consecutive power dispatch in wind farms to mitigate secondary frequency dips |
| title_sort |
consecutive power dispatch in wind farms to mitigate secondary frequency dips |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/178655 |
| _version_ |
1814047073983528960 |