IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE) e-ISSN: 2278-1676,p-ISSN: 2320-3331, Volume 13, Issue 3 Ver. II (May. – June. 2018), PP 72-79 www.iosrjournals.org DOI: 10.9790/1676-1303027279 www.iosrjournals.org 72 | Page Hybrid Renewable Energy System for Agriculture Irrigation Mr. D. R. Donode 1 , Dr.R.G.Shriwastava 2 , Mr. K. N. Sawalakhe 3 , Mr. R. M.Akare 4 1 M.TECH student, Dept. of EE, SDCE Wardha 2 Associate Professor, Dept.of EE, DMIETR Wardha 3 Assistant Professor,Dept. of EE,BDCE Wardha 4 M.Tech Scholar,Dept. of EE, AGPCE Wardha Corresponding Author: Mr. D. R. Donode Abstract: Hybrid (Solar & Wind) renewable power system can be used to preserve the non-renewable fossil fuels. The Photovoltaic-wind hybrid system profits the lowest unit cost values to sustain the same level of Deficiency of Power Supply Probability as compared to standalone solar and wind systems. For all load demands, the optimal energy cost for Photovoltaic-wind hybrid system is always lower than that of standalone solar PV or wind system. The Photovoltaic-wind hybrid system is best techno-economically practicable& achievable for agriculture irrigation system. This paper represents the hybrid energy system using solar and wind energy resources & multilevel converter for the control of agriculture irrigation system. The multilevel inverters are applied in high voltage PV power plant mainly due to the high voltage capability, low switching frequency, and low power losses. The power system is connected to a water pump to work as the agriculture irrigation system. The objective of this paper is to presents a simulation; modelling and analysing of a seven- level inverter operate on photovoltaic and wind power for agriculture irrigation system. Solar-wind hybrid renewable energy system for agriculture irrigation system control is an intelligent, small scale, and off grid lighting system. The advantage of this idea is to avoid daily running cost and make the system more independent. Keywords: model, solar, wind, hybrid, energy, photovoltaic. --------------------------------------------------------------------------------------------------------------------------------------- Date of Submission: 31-05-2018 Date of acceptance: 16-06-2018 --------------------------------------------------------------------------------------------------------------------------------------- I. Introduction In recent years, there has been an increasing interest in electrical power generation from renewable energy sources not only because they are naturally available, pollution free and inexhaustible but also as day by day the power crisis increases in our country, the government also attracting the peoples to use renewable energy by giving 50% subsidy. Now we are in the exact time to elevate from conventional power generating system. Energy is a basic need for the progress of all country and it must be preserved in a most efficient way. Not only the technologies should be developed to produce electrical energy in a most nature-friendly manner from all varieties of renewable & non-renewable fuels but also ample importance should be given to preserve the energy resources in the most efficient way. Energy is the crucial factor responsible for both manufacturing and farming development. The use of renewable energy sources to meet the energy demands has been progressively increasing from the past few decades. However, the main disadvantages associated with renewable energy systems are their inability to assurance reliability and their lean nature. Import of petroleum products creates a major drain on our foreign exchange reserve. Renewable energy resources are considered to be the better option to meet these current challenges. At present, standalone solar photovoltaic and wind systems have been promoted around the globe on a comparatively larger scale. These separate systems can’t provide continuous source of energy, as they are seasonal. For example, standalone solar photovoltaic energy system cannot provide reliable power during non-sunny days. The standalone wind system cannot satisfy constant load demands due to significant fluctuations in the magnitude of wind speeds from hour to hour throughout the year. Therefore, energy storage systems will be required for each of these systems in order to satisfy the power demands. Usually storage system is expensive and the size has to be reduced to a minimum possible for the renewable energy system to be cost effective. Hybrid power systems can be used to reduce energy storage requirements cost. Like several other developing countries, India is characterized as severe energy deficit. In most of the urban & rural locations, there are number of problems such as low load factor, poor voltage regulation, poor voltage supply and poor frequency supply, frequent power supply interruptions. The above energy deficiency problems can be substantially reduced with this small effort and hence concentrated efforts are continually provided in implementing hybrid solar-wind renewable energy systems at sites that have a large