Abstract
This chapter deals with the control strategy for a stand-alone photovoltaic/wind/battery energy generation system. The goal is to examine the performance of the power system under several conditions of generation and demand. A centralized power management system is established to supervise the power flow between the generation units and user loads. Local controllers of the renewable sources and storage system are designed based on classical control methods. The overall system is simulated in the MATLAB/Simulink environment, using Xilinx System Generator (XSG) tool, for possible implementation of generated VHDL (Hardware Description Language) code on a reconfigurable Field-Programmable Gate Array (FPGA) card. The simulation results are provided in order to demonstrate the accuracy and feasibility of the designed control scheme.
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References
Chettibi, N., Mellit, A.: Intelligent control strategy for a grid connected PV/SOFC/BESS energy generation system. Energy 147, 239–262 (2018)
Han, Y., Chen, W., Li, Q., Yang, H., Zare, F., Zheng, Y.: Two-level energy management strategy for PV-Fuel cell-battery-based DC microgrid. J Hydrogen Energy. 44(35), 19395–19404 (2019)
Serir, C., Rekioua, D., Mezzai, N., Bacha, S.: Supervisor control and optimization of multi-sources pumping system with battery storage. J Hydrogen Energy 41(45), 20974–20986 (2016)
Kalantar, M., Mousavi S. M.G.: Dynamic behavior of a stand-alone hybrid power generation system of wind turbine, microturbine, solar array and battery storage. Appl. Energy. 87, 3051–3064 (2010)
Ouachani, I., Rabhi, A., Yahyaoui, I., Tidhaf, B., Fernando Tadeo, T.: Renewable energy management algorithm for a water pumping system. In: 8th Interernational Conference Sustainability in Energy and Buildings, Energy Procedia, vol. 111, pp. 1030–1039 (2017)
Boukettaya, G., Krichen, L.: A dynamic power management strategy of a grid connected hybrid generation system using wind, photovoltaic and Flywheel Energy Storage System in residential applications. Energy 71, 148–159 (2014)
Hu, J., Shan, Y., Xu, Y., Guerrero, J.M.: A coordinated control of hybrid ac/dc microgrids with PV-wind-battery under variable generation and load conditions. Electr. Power Energy Syst. 104, 583–592 (2019)
Sharma, R.K., Mishra, S.: Dynamic Power Management and Control of PV PEM fuel Cell based Standalone AC/DC Microgrid Using Hybrid Energy Storage. IEEE Trans. Ind. Appl. 54(1), 526–538 (2018)
Abadlia, I., Bahi, T., Bouzeria, H.: Energy management strategy based on fuzzy logic for compound RES/ESS used in stand-alone application. J. Hydrogen Energy 41(38), 16705–16717 (2016)
Madaci, B., Chenni, R., Kurt, E., Hemsas, K.E.: Design and control of a stand-alone hybrid power system. J. Hydrogen Energy 41(29), 12485–12496 (2016)
Pu, Y., Li, Q., Chen, W., Liu, H.: Hierarchical energy management control for islanding DC microgrid with electric-hydrogen hybrid storage system”. J. Hydrogen Energy 44(11), 5153–5161 (2018)
N.E. Zakzouk, M. A. Elsaharty, A. K. Abdelsalam, A.A. Helal,B. W. Williams, “Improved performance low-cost incremental conductance PV MPPT technique » IET Renew. Power Gener., Vol. 10, Iss. 4 (2016) pp. 561–574
Harrouz, A., Benatiallah, A., Moulayali, A., Harrouz, O.: Control of Machine PMSG Dedicated to the Conversion of Wind Power Off-Grid. In: 4th International Conference on Power Engineering, Energy and Electrical Drives Istanbul, Turkey, 13-17 May 2013
Meghni, B., M’Sirdi, N. K., Saadoun, A.: A novel maximum power tracking by VSAS approach for permanent magnet direct drive WECS. In: 7th Inter. Conf. Sustainability in Energy and Buildings, Energy Procedia vol. 83, pp. 79–90 (2015)
Haque, M. E., Muttaqi, K. M., Negnevitsky, M.: Control of a stand alone variable speed wind turbine with a permanent magnet synchronous generator. In: 2008 IEEE Power and Energy Society General Meeting-Conversion and Delivery Of Electrical Energy in 21st century
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Chettibi, N., Mellit, A. (2020). XSG-Based Control of an Autonomous Power System. In: Mellit, A., Benghanem, M. (eds) A Practical Guide for Advanced Methods in Solar Photovoltaic Systems. Advanced Structured Materials, vol 128. Springer, Cham. https://doi.org/10.1007/978-3-030-43473-1_11
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DOI: https://doi.org/10.1007/978-3-030-43473-1_11
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