Development of Battery/supercapacitor Hybrid Energy Storage Scheme for Grid Connected Solar Pv Source
Abstract
Though attempts for solving the problem of variability of renewable energy (RE) sources have
been mitigated through the single energy storages, a gap still exists on the reliability and quality
of power produced. The research has expressly developed a hybridized energy scheme for a
solar PV source that is integrated to the grid. The prime objective of the study was to achieve
a continuous power flow from the solar PV generated with the backup storage from lead acid
battery (PbA) and the supercapacitor (SC). The battery would deliver high energy at longer
duration while the supercapacitor would deliver high power at shorter period. This research
objective was met by obtaining the design parameters and modelling the three power sources
namely; solar PV, battery and supercapacitor. The results for this work were obtained through
analysing data from the solar PV, battery and supercapacitor using MATLAB Simulink. By
observation of the power profiles, comparison was made between the single energy storage
systems (ESS) against the hybrid energy storage systems (HESS) components. The outcome
from the simulation and presented in graphs format portrayed that the performance of HESS
was better than when ESSs were used singularly as means of energy storage backup. The HESS
delivered 3.607 kWh against single ESSs at 3.23 kWh for battery and 2.496 kWh for SC
respectively. The research report concludes that though the main objectives of harvesting
continuous power from a RES with HESS backup was achieved, further studies are
recommended.
Publisher
University of Nairobi
Rights
Attribution-NonCommercial-NoDerivs 3.0 United StatesUsage Rights
http://creativecommons.org/licenses/by-nc-nd/3.0/us/Collections
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