研究目的
To define and analyze different parameters that can contribute in the design of an optimal storage system appropriated to a stand-alone installation, focusing on the optimization of the Lack and Surplus without over or under sizing.
研究成果
The research proposed an optimal and concrete storage system adapted to the needs of a house with approximately 5 people in a rural area in Morocco. Future research will focus on optimizing the battery capacity based on reducing the cost of the kilowatt-hour produced and confirming the efficiency through experimentation and advanced simulations.
研究不足
The study is limited to a virtual stand-alone photovoltaic system in a specific location (Errachidia, Morocco). The optimization is based on theoretical analysis without experimental validation. Future research should include economic parameters and advanced simulation solutions for confirmation.
1:Experimental Design and Method Selection:
The study focused on a virtual stand-alone photovoltaic system located in a rural area in Errachidia, Morocco. The system was designed, the battery was sized, and the lack and surplus were calculated for one year.
2:Sample Selection and Data Sources:
A virtual stand-alone photovoltaic installation was considered, with electrical needs defined for a family of five members.
3:List of Experimental Equipment and Materials:
Photovoltaic panels, battery storage system, controller (regulator), and inverter.
4:Experimental Procedures and Operational Workflow:
The photovoltaic array was sized based on daily energy needs. The energy Lack and Surplus were analyzed for one year to estimate the adapted battery capacity.
5:Data Analysis Methods:
The study analyzed the Lack of Energy Generated (LEG) and Surplus of Energy Produced (SEP) to optimize the battery sizing.
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