Design and Simulation of Hybrid PV- Wind Grid Connected Energy System

Abstract

Now a day the world has depended on fossil fuels for energy supply. The worldwide consumption of fossil fuels (coal, gas and oil) is still increasing in spite of the growing global awareness of the environmental impact of fossil fuel consumption and of limited fossil fuel reserves. Presently increase in the price of oil has been a most important source of economical problem in the world. The production of oil level in the world will dissipate in less than 50 years. So we have strong motivation on our technologies to develop and harvest the abundant solar energy into clean renewable energy for the ultimate replacement of fossil fuels. The primary obstacle in the growth of photovoltaic is the high total cost of photovoltaic installations. In contrast, coal is cheap and abundant in key consuming countries such as India and China, making coal the world is rapidly growing fuel. Consequently, the main aim of this research is making photovoltaic cells more efficient for converting solar energy into electricity and by reducing production cost. This growth has been supported by the increasing efficiency and associated cost competitiveness of photovoltaic cells as well as enabling renewable energy policies. To maintain the high growth rate of the photovoltaic industry, it is essential to continue improving the conversion efficiency while decreasing production cost of photovoltaic cells. This paper at first presents the fundamental outline of matrix associated system, solar wind cross breed system at that point clarifies the examination of system plan, and reproduction ideas of half breed framework associated system. Results clarifies the plan and recreation of network associated solar pv wind half breed system for understanding the difficulties in matrix interfacing of cross breed wind pv system. It is likewise useful in showing the demonstrating of cross breed energy system utilizing building squares and estimation of figure of benefits for introduced system.