Abstract
Nowadays, the Balancing Authority Area Control Error (ACE) Limit (BAAL) Standard has been adopted to replace the Control Performance Standard 2 (CPS2) in the North American power grid. According to the new standard’s mechanism, a new control logic, named “Triggered Monitoring and Graded Regulation” (TM-GR) is proposed. Its purpose is to improve wind power utilization, with good BAAL Standard compliance for load frequency control (LFC). With the TM logic, according to the real-time regulating ability of areas and forecasting results of wind power output, the triggering moments to give orders are found and a defined monitoring interval is set to track the succeeding fluctuation of Area Control Error (ACE). With the GR logic, based on whether or not over-limit frequency and over-limit ACE occur simultaneously, unit output is regulated in different grades. In cooperation with the existing control logic of Control Performance Standard 1 (CPS1), the proposed logic has a higher priority. From the test results, with the proposed control logic, the utilization of wind power output increases and, meanwhile, the area’s control performance meets the Standard BAL-001-2 requirements. The standard deviation of the frequency deviation is less than the target value, and the duration of over-limit ACE and over-limit frequency can both be restricted to be less than 30 min.
Highlights
IntroductionThe control areas in an interconnected grid share the benefits of interconnection but share the responsibilities to maintain frequency stability by load frequency control (LFC)
The control areas in an interconnected grid share the benefits of interconnection but share the responsibilities to maintain frequency stability by load frequency control (LFC).Control performance standards need to be set to monitor and assess areas’ control actions [1,2,3]
The standard deviation of the frequency deviation is less than the target value, and the duration of over-limit Area Control Error (ACE) and over-limit frequency can both be restricted to be less than 30 min
Summary
The control areas in an interconnected grid share the benefits of interconnection but share the responsibilities to maintain frequency stability by load frequency control (LFC). Control performance standards need to be set to monitor and assess areas’ control actions [1,2,3]. As for the areas, they would design an appropriate control logic based on their regulation characteristics and capability. The logic is used to reduce the operating cost under the precondition of meeting the standard requirements [4,5,6]. In respect of assessment on LFC performance, every power grid has its own standard, which was designed based on its operating environment [7,8,9]. In the American power grid, the North American
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