Hybrid Renewable Energy Generation Through Incremental Conductance Mppt
Shurbhit Surage1, M.P.S. Chawla2
1Shurbhit Surage, Department of Electrical Engineering, SGSITS, Indore (M.P.), India.
2M.P.S. Chawla, Department of Electrical Engineering, SGSITS, Indore (M.P.), India.
Manuscript received on 19 October 2021 | Revised Manuscript received on 10 October 2021 | Manuscript Accepted on 15 March 2022 | Manuscript published on 30 March 2022 | PP: 1-4 | Volume-`2 Issue-1, March 2022. | Retrieval Number: 100.1/ijvlsid.C1204031322 | DOI: 10.54105/ijvlsid.C1204.031322
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Abstract: The relevance of electricity generation from renewable energy sources is growing every day in the current global energy environment. The scarcity of fossil fuels and the environmental risks connected with traditional power producing methods are the main reasons behind this. The major sources of non-conventional energy are wind and solar which can be harnessed easily. A new system design for hybrid photovoltaic and wind-power generation is introduced within this study. A Modified M.P.P.T. has been proposed to strengthen productivity of this system. The proposed approach employs the Incremental Conductance (IC) MPPT technique. Under varied climatic conditions (Solar irradiance & Temperature), IC is utilized to determine the optimum voltage output of a photo voltaic generator (P.V.G.) within the photo voltaic system (P.V.) structure. The Incremental Conductance is utilized to manage the converter’s technology having boosting function. The P.M.S.G. is used to determine the maximum voltage output for varied wind flow rates in wind turbine system. Simulations are conducted in Matlab2019b to test efficacy of the proposed MPPT. The proposed scheme’s effectiveness can be supported with simulation results.
Keywords: Incremental Conductance, MPPT, Renewable Hybrid Energy, Solar PV, Wind PMSG.
Scope of the Article: Hybrid Renewable Energy