Conference Papers
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Item Modelling and simulation of a wind/diesel hybrid power system(2006) Kini, A.S.; Yaragatti, U.R.In remote and isolated areas far from the grid, it may not be an economically viable option to supply electric power from the grid. This is due to the high cost of transmission lines and higher transmission losses that accompany distribution of centrally generated power to remote areas. In such cases hybrid systems such as wind/diesel generators are found to be the most reliable, preferred and attractive alternative source of power supply. This paper presents the modelling and performance analysis of wind/diesel hybrid generating system. To regulate the frequency and voltage output of the wind generator, an AC-DC-AC scheme using SPWM technique is employed. To evaluate the performance and stability of the hybrid system, it is simulated for different disturbances involving variation in wind speed and load conditions using EMTDC/PSCAD software.Item Modelling and performance analysis of a wind/diesel hybrid power system(2006) Kini, A.S.; Yaragatti, U.R.Domestic consumers in the remote places who are not connected by the main electrical grid network, hybrid systems such as wind/diesel generators have been considered as the most reliable, preferred and attractive alternative source of power supply. This paper presents the modeling and performance analysis of wind/diesel hybrid generating system. To regulate the frequency and voltage output of the wind generator, an AC-DC-AC scheme using SPWM technique is employed. The system is simulated for different wind speed and load conditions using EMTDC/PSCAD software. © 2006 IEEE.Item Modelling and analysis of a standalone PV/micro turbine hybrid system(Institute of Electrical and Electronics Engineers Inc., 2017) Shalavadi, B.; Chowdary, V.; Kumar, R.Y.U.Nowadays the distributed generation is being vastly implemented due to its various advantages. It is made more promising by connecting it in parallel with a non renewable source. Normally Photo Voltaic (PV) generation gives the power required by the load. The output of the PV is varying due to various reasons like temperature, irradiation, etc. Distributed generation using micro turbine is a potential solution because of its reduced effect on environment, miniature and high efficiency. If the load is more than PV power capability, micro turbine supplies the remaining power. Due to the varying load conditions, the micro turbine practically compensates all the PV fluctuations of power. This paper documents the simulation and analysis of a standalone Photovoltaic / Micro turbine hybrid system using MATLAB/SIMULINK simulation software. The system is implemented based on the concept of a parallel hybrid configuration. The simulation results validate the proposal. © 2017 IEEE.