Issue |
ITM Web Conf.
Volume 43, 2022
The International Conference on Artificial Intelligence and Engineering 2022 (ICAIE’2022)
|
|
---|---|---|
Article Number | 01022 | |
Number of page(s) | 5 | |
DOI | https://doi.org/10.1051/itmconf/20224301022 | |
Published online | 14 March 2022 |
Case Study Design of a Stand-Alone Photovoltaic Power System in Gaza-Strip and Genaralizing Aprogram Simulation
1 (Palestine Broadcasting Television) Gaza University /Technical Engineering Gaza, Palestine
2 (Palestine Broadcasting Television) TV Producer & Director Gaza
3 Palestine University) (Instructor and Trainer of projects) Gaza, Palestine
4 Gaza, Palestine Mechanical Engineering Department (Palestine Broadcasting Television)
husam20111@gmail.com
Palestine Husamawwad2015@hotmail.com
g.m.s.a@hotmail.com
shareifshurrab@gmail.com
This paper considered the design of a stand-alone PV system that would be adequate to power a single residence and estimate the appropriate size of the solar panel. This system converts solar energy directly into electricity using photovoltaic principle in PV panel arrays. The electricity produced can be used to power most ac and dc electrical appliances. Inverter is used to convert the dc generated by the PV panels to ac for most domestic and industrial use. For continuous availability of power during days of autonomy (low insolation or cloudy days), battery storage system and charge controller (for battery charge and discharge control) are required. inverter, charge controller, battery, components interconnection wires. The sizing processes considered the quality of solar irradiation of the geographical location, effect of temperature de-rating, efficiency of components, system voltage selection, days of autonomy and load demand (in watt-hour). A residence in Gaza town was chosen as a case study. The minimum electrical load of 7.875kWh per day, household, Finally excel program simulation was designed to satisfy calculation equations process and generalize the program.
Key words: Electrical load demand / Photovoltaic system / Stand-alone / Solar irradiation / System sizing
© The Authors, published by EDP Sciences, 2022
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