Browsing by Keyword "grid support"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item Dynamic Flexible Power Point Tracking in Photovoltaic Power Plants(IEEE Computer Society, 2021-10-13) Narang, Aditi; Farivar, Glen G.; Dehghani Tafti, Hossein; Ceballos, Salvador; Pou, Josep; Townsend, Christopher D.; Konstantinou, Georgios; POWER ELECTRONICS AND SYSTEM EQUIPMENTFrequency support from photovoltaic (PV) power plants is required with new grid codes. To provide frequency support, the PV system needs to regulate the PV power in such a way that a predefined amount power reserve is kept in the PV system. Accordingly, a dynamic flexible power point tracking algorithm (FPPT) for grid-connected PV power plants is introduced in this paper. The proposed algorithm regulates the average PV power by continuously sweeping some portion of the PV curve that includes the given power reference point. The proposed strategy is different from traditional static FPPT techniques as it ensures a predefined amount of power reserve in the PV system. This power reserve provides the flexibility of increasing the power injected into the grid that can be withdrawn with a fast dynamic. Compared to the traditional solutions, in the proposed algorithm, the PV injects a constant power into the grid without any fluctuations. Effectiveness of the proposed technique in providing frequency support in a two-stage grid-connected PV plan is demonstrated by simulation results.Item Dynamic Reserve Power Point Tracking in Grid-Connected Photovoltaic Power Plants(2023-05-01) Narang, Aditi; Farivar, Glen G.; Tafti, Hossein Dehghani; Ceballos, Salvador; Beniwal, Neha; Pou, Josep; Townsend, Christopher D.; Konstantinou, Georgios; POWER ELECTRONICS AND SYSTEM EQUIPMENTThis article introduces a dynamic power reserve control methodology called reserve power point tracking (RPPT) for grid-connected photovoltaic (PV) plants. The proposed RPPT methodology is employed to ensure availability of the required power reserve to support the grid and accordingly facilitate high penetration of PV generation in the grid. Implementing this control methodology does not require any extra hardware. The proposed methodology regulates the average PV power dynamically by periodically operating on and off the maximum power point (MPP) in order to inject a constant desired power into the grid. Tracking a desired power reference implies that the proposed methodology is a form of flexible power point tracking (FPPT). However, unlike a traditional FPPT, the proposed methodology also provides updated information of the available maximum PV power. Hence, the RPPT fulfills both FPPT and maximum power point tracking (MPPT) functionalities simultaneously. The proposed methodology extracts the MPP information and uses this information to calculate and regulate the amount of PV reserve power. One of the main advantages of the proposed algorithm is its applicability under partial shading conditions. Its effectiveness is demonstrated by experimental results under changing solar irradiance, grid frequency deviation, and partial shading conditions.