Affiliation:
1. Dipartimento di Elettronica, Informazione e Bioingegneria, Politecnico di Milano, 20133 Milan, Italy
2. Institute for Automation of Complex Power Systems, E.ON Energy Research Center, RWTH Aachen University, 52074 Aachen, Germany
Abstract
Grid-connected photovoltaic (PV) systems are commonly designed for maximum energy production. However, as their presence grows, revised grid regulations increasingly require these systems to partially adhere to the primary frequency regulation (PFR) by reducing their power production when the grid frequency exceeds the nominal value. Nevertheless, full participation in PFR of PV systems, without battery storage, would require operating with a dedicated active power reserve to be utilized in the event of underfrequency conditions. This paper presents a model-based (MB) flexible power point tracking (FPPT) algorithm for PV systems. Results of a microgrid simulation show that the proposed algorithm enables a PV system with a nominal power of 100 kW to maintain a 20 kW active power reserve under various irradiation and temperature conditions, with a relative error lower than 3%. Furthermore, a simulation of the PV system assisting in primary frequency regulation is presented. Thanks to the proposed strategy, when employing the algorithm, the frequency deviation is reduced both in the event of underfrequency and overfrequency conditions. By enabling operation with a constant active power reserve, as well as a quick adjustment of the produced active power, in the event of frequency imbalance, the proposed MB algorithm is an interesting candidate for achieving complete PFR capabilities of PV systems.
Reference29 articles.
1. IEA (2024, April 23). Renewables 2022: Analysis and Forecast to 2027. Available online: https://iea.blob.core.windows.net/assets/ada7af90-e280-46c4-a577-df2e4fb44254/Renewables2022.pdf.
2. Solar Power Europe (2024, April 23). Global Market Outlook for Solar Power 2022–2026. Available online: https://api.solarpowereurope.org/uploads/Solar_Power_Europe_Global_Market_Outlook_report_2022_2022_V2_2_87bd2c1e44.pdf.
3. Enhanced contribution of photovoltaic power systems to frequency control in future Power Systems;Seidel;IET Renew. Power Gener.,2021
4. Energinet.dk (2016). Technical Regulation 3.2.2 for PV Power Plants with a Power Output above 11 kW, Energinet.dk. Technical Repert No. 14/17997-39.
5. Benchmarking of Constant Power Generation Strategies for Single-Phase Grid-Connected Photovoltaic Systems;Sangwongwanich;IEEE Trans. Ind. Appl.,2018