Analysis of a self-sufficient photovoltaic system for a remote, off-grid community DOI Creative Commons
Anwer S. Aljuboury,

W.K. Al-Azzawi,

L. M. Shakier

et al.

F1000Research, Journal Year: 2024, Volume and Issue: 11, P. 1540 - 1540

Published: Feb. 5, 2024

Background The escalating global population, surpassing seven billion in 2012, amplifies the strain on existing resources for food, housing, and conventional energy. Addressing these challenges requires development of economically environmentally viable renewable energy technologies. Photovoltaic (PV) solar modules stand out their eco-friendly operation reliability. In off-grid communities, stand-alone PV systems, coupled with battery storage, play a pivotal role meeting electrical needs. Methods This study enhances understanding systems through modeling simulation using MATLAB software. A multi-crystalline system, specifically Kyocera KC130GT, is investigated under varying conditions, pulse width modulation (PWM) controller employed charging. Results reveals profound effects production based I-V P-V characteristics modeled system when PWM utilized. demonstrates successful generation different accounting temperature variations voltage mismatches. Conclusion simulated model serves as versatile capable detecting conditions light scenarios. Effective monitoring, adjustment suitable charger controller, selection optimal materials can significantly enhance system’s efficiency. results emphasize importance careful consideration sizing corresponding to capacity improved While cost currently low, scalability larger projects may incur increased costs due high prices photovoltaic panels, batteries, other components.

Language: Английский

Feasibility of Solar Power Generating from a Techno-Economic Side Towards the Implementation of Green Manufacturing DOI

Rio Martin,

Bachtiar H. Simamora

Revista de Gestão Social e Ambiental, Journal Year: 2024, Volume and Issue: 18(10), P. e08509 - e08509

Published: Sept. 20, 2024

Objective: Solar Power Plants (SPP) operated by companies or organizations are expected to positively impact the company's performance. It can support commitment implementing environmentally friendly manufacturing practices sustain environment for living beings. Theoretical Framework: This study aims analyze techno-economic feasibility of photovoltaic (PV) system so results serve as a reference planning operate PV systems. Method: The ARIMA and degradation rate analysis methods measure 188.46 kW installed over its 1–30-year lifecycle. includes measuring estimated electricity produced, Return on Investment (ROI), Payback Period (PBP), reduction in Carbon Emissions based production system. Results Discussion: an output 5,117,149 kWh 30 years, with ROI 80.6%, equivalent Rp 132,233,883 million per year, PBP 15 carbon emission 152 tCO2eq year. concludes that investing self-operated meet 19% total consumption, reducing reliance fossil fuel-based sources. Additionally, company manage costs approximately 14,429,005 month from operational consumption. Research Implications: implications this research, providing additional insights development new renewable energy. Value: systems significantly emissions, accounting around monthly

Language: Английский

Citations

1
Analysis of a self-sufficient photovoltaic system for a remote, off-grid community DOI Creative Commons
Anwer S. Aljuboury,

W.K. Al-Azzawi,

L. M. Shakier

et al.

F1000Research, Journal Year: 2024, Volume and Issue: 11, P. 1540 - 1540

Published: Feb. 5, 2024

Background The escalating global population, surpassing seven billion in 2012, amplifies the strain on existing resources for food, housing, and conventional energy. Addressing these challenges requires development of economically environmentally viable renewable energy technologies. Photovoltaic (PV) solar modules stand out their eco-friendly operation reliability. In off-grid communities, stand-alone PV systems, coupled with battery storage, play a pivotal role meeting electrical needs. Methods This study enhances understanding systems through modeling simulation using MATLAB software. A multi-crystalline system, specifically Kyocera KC130GT, is investigated under varying conditions, pulse width modulation (PWM) controller employed charging. Results reveals profound effects production based I-V P-V characteristics modeled system when PWM utilized. demonstrates successful generation different accounting temperature variations voltage mismatches. Conclusion simulated model serves as versatile capable detecting conditions light scenarios. Effective monitoring, adjustment suitable charger controller, selection optimal materials can significantly enhance system’s efficiency. results emphasize importance careful consideration sizing corresponding to capacity improved While cost currently low, scalability larger projects may incur increased costs due high prices photovoltaic panels, batteries, other components.

Language: Английский

Citations

0