International Journal of Electrical Power System and Technology

Solar and wind energy have increased greatly in the past few years. In this study, we proposed a hybrid energy system that combines solar panels with wind turbines to replace traditional sources of electricity, such as thermal and hydropower. Renewable energy is becoming increasingly popular as an unrealistic alternative source of electricity to traditional power generation. Electricity demand is growing every day, and non-renewable energy alone cannot be met. Renewable energy is a new option for meeting energy needs, but it is unreliable because of its probability nature. Hybrid renewable energy systems combine two or more renewable sources of energy, including wind turbines and solar systems. Hybrid renewable energy systems combine two or more renewable sources of energy, including wind turbines and solar systems. The purpose of this document is to conduct a comprehensive review of all aspects of the Commission on Human Rights. In this paper, feasibility study, optimization scale, modeling, management and reliability are discussed. The application of evolutionary technology in hybrid renewable energy is introduced. This study summarizes the whole hybrid system and has comprehensive results in determining the feasibility of the system.

Barra L, Catalotti S, Fontana F, LaVolante F. (2005) "Analysis method for determining the optimal size of solar power generation equipment". Solar energy, pp. 33, 6,509-514

Jagrati Kumari, P.Subathra, Edward Moses (2017) “Economic analysis of hybrid energy system for rural electrification using HOMER”: International Conference on Innovations in Electrical, Electronics, Instrumentation and Media Technology (ICEEIMT); 2017;Coimbatore, India. New Jersey, United States: IEEE;2017

Bagel A.D., Salamez. M and Boravi B. (2016) "Size of autonomous hybrid wind-PV systems using three approximate density event probabilities”: Solar Power. 2016; 56 (4): 323-335.

Argava B. (2001) "India Solar Technology Review" Solar Materials and Solar Panels: Tom.pp. 67,639-646.

Batachalaya N.K. and Mukrzi D. (2001) Simple Methodology for Design and Economic Evaluation of Solar Rural Medical Centres in West Bengal, SESI Procedure, 25th National Renewable Energy Convention, pp. 158-164.

Celik A.N.(2003) "Technical economic analysis of PV wind energy autonomous hybrid energy systems using different size methods", Energy Conversion and Management, Tom. pp. 44, 1951-1968.

Hiroyuki Unozawa, Kenji Otani, Kanji Kurokawa (2001) "Simple models for assessing aircraft radiation through micro-horizontal exposure", solar materials, solar panels, volume 67,611-619.

Jorge Islas, Fabio Manzini and Manuel Martinez (2004),"Co2 mitigation costs of new renewable energy sources in the Mexican electricity sector", Solar Energy, volume 76, 499- 507.

Ian H.H., Burnett L, Lu J (2003), "Weather Data and Probability Analysis of Hybrid Solar Power Systems in Hong Kong", Renewable Energy pp. 28, 1813-1824.

Sahdi A. (2003). "Developing new approaches to the exact scale of solar hybrid energy systems, convening the minutes of the International Conference on Energy and Environmentally Sustainable Technologies, MNIT, Jaipur, India, 180-184.