Optimum solar and wind model with particle optimization (PSO)

Document Type: Research Paper

Authors

Department of Economics, Shahid Bahonar University, Kerman, Iran.

Abstract

Although the development of science and technology in the present era has increased human satisfaction from life, it has caused the problems such as environmental pollution and increased demand for energy carriers, especially fossil fuels. Considering that fossil fuels can be exhausted, the most suitable solutions to address the consequences are the use of renewable energy sources to generate electricity. In this paper, using the Particle Cumulative Optimization (PSO) algorithm, we have tried to design an optimal photovoltaic and winding model to supply the power of an area in such a way that the electrical charge generated by this system has the reliable capability and economically viable.                                                                                 

Keywords

Main Subjects


[1]     Eberhart, R., & Kennedy, J. (1995, October). A new optimizer using particle swarm theory. Proceedings of the sixth international symposium on micro machine and human science, MHS'95 (pp. 39-43). IEEE.

[2]     Heydari, A., & Askarzadeh, A. (2016). Techno-economic analysis of a PV/biomass/fuel cell energy system considering different fuel cell system initial capital costs. Solar energy133, 409-420.     

[3]     Agarwal, N., & Kumar, A. (2013). Optimization of grid independent hybrid PV–diesel–battery system for power generation in remote villages of Uttar Pradesh, India. Energy for sustainable development17(3), 210-219.

[4]     Adaramola, M. S., Paul, S. S., & Oyewola, O. M. (2014). Assessment of decentralized hybrid PV solar-diesel power system for applications in Northern part of Nigeria. Energy for sustainable development19, 72-82.

[5]     Singh, G. K. (2013). Solar power generation by PV (photovoltaic) technology: A review. Energy53, 1-13.

[6]     Askarzadeh, A., & dos Santos Coelho, L. (2015). A novel framework for optimization of a grid independent hybrid renewable energy system: A case study of Iran. Solar energy112, 383-396.