Author
Listed:
- Ying Qu
- Xiaoqing Han
- Tao Meng
- Xinyuan Liu
- Danyang Chen
- Zhewen Niu
- Mahnoor Sarfraz
Abstract
The incorporation of renewable energy on a broad scale into power grids increases the complexity to the issue of transient voltage stability in power systems. This research presents a rapid evaluation technique for assessing the stability of voltage fluctuations in power grids that receive electricity from photovoltaic sources. At first, a receiving-end system model was developed, which includes photovoltaics, and an alternative circuit of the virtual induction motor (IM) is obtained by utilizing the Thevenin equivalent. Second, the torque balance equation and the Kirchhoff voltage equation are interconnected to determine the unstable slip of the IM following a malfunction. Finally, by merging the unstable slip with the conventional transient stability discriminant index, the effects of different photovoltaic outputs, IM ratios, and system contact impedances on transient voltage stability are investigated. The proposed method avoids the computational burden of solving the differential-algebraic equations describing the complex transient processes of the IM. It also obviates the necessity of iteratively modifying the receiving load or fault clearance time in the simulation platform to achieve the constrained stability condition of the system’s transient voltage. The transient stabilization of voltage results is efficiently obtained by directly solving algebraic equations.
Suggested Citation
Ying Qu & Xiaoqing Han & Tao Meng & Xinyuan Liu & Danyang Chen & Zhewen Niu & Mahnoor Sarfraz, 2024.
"Fast Assessment Method for Transient Voltage Stability of Photovoltaic Receiving-End Grid,"
Advances in Mathematical Physics, Hindawi, vol. 2024, pages 1-12, October.
Handle:
RePEc:hin:jnlamp:7361194
DOI: 10.1155/2024/7361194
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