Development of a stand-alone photovoltaic (PV) energy system with multi-storage units for sustainable power supply

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Development of a stand-alone photovoltaic (PV) energy system with multi-storage units for sustainable power supply

Authors
  • Anayochukwu Ani, Vincent
Type
Published Article
Journal
Renewable Energy and Environmental Sustainability
Publisher
EDP Sciences
Publication Date
Aug 20, 2024
Volume
9
Identifiers
DOI: 10.1051/rees/2024007
Source
EDP Sciences
Keywords
Disciplines
  • Research Article
License
Green
External links

Abstract

The sizing of the energy components is essentially designed to prevent outages and ensuring the reliability of the power supply. This paper focuses on the development of a stand-alone photovoltaic/battery/fuel cell power system considering the demand of load, generating power, and effective multi-storage strategy using a probabilistic sizing algorithm. A computer program was developed and used in the design of component sizing configuration of a stand-alone power system that comprises of a photovoltaic generator (PV), battery, water electrolyzer, a storage gas tank, a fuel cell, and an inverter for a reliable power supply. This program manages the energy flow through the various components of a stand-alone PV/battery/fuel cell power system and provide an optimal technical configuration. The optimum system configuration of a residential building with daily power demands of 69 kWh/day energy consumption is composed of PV arrays resulting in total rated power of 15 kW, 16 units of 6 V, 225 Ah battery bank, 5.5 kW fuel cell, 5.5 kW Water Electrolysis, 16.5 kg hydrogen tank, and a 5.5 kW inverter. Based on the simulation results conducted, it was shown that the sizing and development of a stand-alone PV/battery/FC energy system have been achieved with system reliability (loss of power supply equal to zero). This program could be used as a power monitoring and control system for a stand-alone PV/battery/fuel cell power system.

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