Your search keyword '"*STATIC VAR compensators"' showing total 2 results

1. Novel adaptive stability enhancement strategy for power systems based on deep reinforcement learning.

Author

Zhao, Yincheng, Hu, Weihao, Zhang, Guozhou, Huang, Qi, Chen, Zhe, and Blaabjerg, Frede

Subjects

*STATIC VAR compensators, *MACHINE learning, *REINFORCEMENT learning, *ADAPTIVE control systems, *MARKOV processes, *WIND power

Abstract

• Recursive least squares and generalized regression neural network are used to build a real-time dynamic system model for adaptive control. • A static var compensator additional dual-channel damping controller structure is proposed for the dominant mode of low-frequency oscillation. • Static var compensator additional damping controller parameters tuning problem converted Markov decision process and a soft actor-critic algorithm is also introduced to solve the Markov decision process. As the access rate of wind energy in a power system has significantly increased, stabilizing the power system has become challenging. Among these challenges, low-frequency oscillation is one of the most harmful problems, effectively resolved by adding a damping controller according to the relevant properties of the low-frequency oscillation. However, the controller often fails to adapt to the constantly changing wind energy system owing to the lack of a targeted dynamic change strategy. Thus, to address this issue, an adaptive stabilization strategy that uses a static var compensator with an additional damping controller structure is proposed. Specifically, the entire power system is equivalently represented as a generalized regression neural network, with a deep reinforcement learning algorithm called soft actor-critic introduced to train the agent based on the generalized regression neural network model. After the training process, the agent can provide additional efficient static var compensator damping controller parameters under different operating conditions, vastly improving the system stability. Simulation results verify the improved performance using the proposed strategy compared to other optimization methods, regardless of whether the low-frequency oscillations were suppressed in the time or frequency domains. [ABSTRACT FROM AUTHOR]

Published

2023

2. Robust adaptive control for a single-machine infinite-bus power system with an SVC.

Author

Yong Wan, Jun Zhao, and Dimirovski, Georgi M.

Subjects

*ROBUST control, *ADAPTIVE control systems, *STATIC VAR compensators, *BUS design & construction, *ELECTRIC power systems, *MATHEMATICAL symmetry, *MATHEMATICAL functions

Abstract

In this paper, a new control synthesis framework is developed to solve a robust stabilization problem for a single-machine infinite-bus power system with a static var compensator (SVC). The uncertainties in the infinite bus voltage and the internal and external reactances to the generating station are considered. First, control inputs for the excitation and the SVC are obtained via immersion and invariance (I&I). Then, the controller is redesigned using a parameter update law and a filter using indirect I&I adaptive control and a two-time-scale technique. The transient and steady-state performances are enhanced by introducing class K functions. The simulation results show that the developed controller improves the system performance. [ABSTRACT FROM AUTHOR]

Published

2014