Optimal Operation of Wind Farm for Reducing Power Deviation Considering Grid-Code Constraints and Events

Van-Hai Bui,Akhtar Hussain,Hak-Man Kim

doi:10.1109/access.2019.2943143

Abstract

In wind farm (WF) systems, the set-points of wind turbine generators (WTGs) is determined by the wind farm operator. A change in the value of set-point in two consecutive intervals leads to power fluctuations in the WF system, i.e. power deviation. A large amount of power deviation may adversely affect the operation of the WF system. Therefore, this paper proposes a strategy for operation of a WF system to minimize the power deviation of WTGs during operation time. By using the proposed strategy, the change in set-points of WTGs is minimized and the output power of WTGs is therefore smoother and avoids unnecessary fluctuations. Several grid-code constraints are also considered for operation of the WF system. This ensures the WF system to operate in compliance with the requirements from transmission system operator. Besides, an additional strategy is also proposed to monitor all events in the WF system. Whenever an event occurs in the system, the set-points of WTGs are rescheduled considering the event. Therefore, the proposed operation strategy is also capable of handling events in the WF system. Finally, the simulation results with and without the proposed method are compared to show the effectiveness of the proposed method.

Highlights

The growing environmental concern and exhausting fossil fuels have led to an increase in the penetration of renewable energy sources in the power system
When the wind farm (WF) system operates in accordance with the grid-code constraints, all wind turbine generators (WTGs) might not able to operate with maximum power point tracking (MPPT) because the output power of the WF system is constrained by the required power
This paper has proposed a strategy for the operation of the WF system to minimize the power deviation of WTGs during operation time