ISSN 2394-5125
 

Research Article 


MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL

R Vijaya Krishna, T S Kishore, S D Kaushik.

Abstract
Electricity has a noteworthy position in our everyday life. For the reason that of the electrical supply is not up to the
requirement of the power demand, some remote areas are affected. The micro grids are projected to make available power for
hill area networks. Still the RES are atmospheric friendly but they generate power simply when they are available. By way of
the additional rise of energy options through RES the need of non-renewable also essential for steady flow of power to the
isolated networks. The diesel generators tend to be longer lasting too, offering more opportunities to meet power demand in
outback locations. In this thesis a hybrid micro grid system consisting of solar, wind, fuel cell and diesel generator is modeled
and simulated. The Modeling of PV array based solar power generation was implemented and the proposed model is simulated
at temperature and variable irradiance. Standalone wind energy conversion systems offer a feasible solution to generate power
at isolated localities where utility grid extension is not feasible. In this thesis the diesel generator comprises of diesel engine
and generator is used for emergency power supply. Dynamic characteristics simulation of a proton exchange membranes fuel
cell was introduced for its fast response and zero emission. The hybrid microgrid system is modelled and simulated using
MATLAB/SIMULINK and the results are summarized.

Key words: Diesel generator, Fuel cell, Hybrid micro grid, Inverter and solar photovoltaic


 
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How to Cite this Article
Pubmed Style

R Vijaya Krishna, T S Kishore, S D Kaushik. MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL. JCR. 2020; 7(9): 2655-2661. doi:10.31838/jcr.07.09.429


Web Style

R Vijaya Krishna, T S Kishore, S D Kaushik. MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL. http://www.jcreview.com/?mno=117568 [Access: April 17, 2021]. doi:10.31838/jcr.07.09.429


AMA (American Medical Association) Style

R Vijaya Krishna, T S Kishore, S D Kaushik. MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL. JCR. 2020; 7(9): 2655-2661. doi:10.31838/jcr.07.09.429



Vancouver/ICMJE Style

R Vijaya Krishna, T S Kishore, S D Kaushik. MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL. JCR. (2020), [cited April 17, 2021]; 7(9): 2655-2661. doi:10.31838/jcr.07.09.429



Harvard Style

R Vijaya Krishna, T S Kishore, S D Kaushik (2020) MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL. JCR, 7 (9), 2655-2661. doi:10.31838/jcr.07.09.429



Turabian Style

R Vijaya Krishna, T S Kishore, S D Kaushik. 2020. MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL. Journal of Critical Reviews, 7 (9), 2655-2661. doi:10.31838/jcr.07.09.429



Chicago Style

R Vijaya Krishna, T S Kishore, S D Kaushik. "MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL." Journal of Critical Reviews 7 (2020), 2655-2661. doi:10.31838/jcr.07.09.429



MLA (The Modern Language Association) Style

R Vijaya Krishna, T S Kishore, S D Kaushik. "MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL." Journal of Critical Reviews 7.9 (2020), 2655-2661. Print. doi:10.31838/jcr.07.09.429



APA (American Psychological Association) Style

R Vijaya Krishna, T S Kishore, S D Kaushik (2020) MODELLING AND SIMULATION OF HYBRID MICRO GRID EMPLOYING DG, PV, WIND AND FUEL CELL. Journal of Critical Reviews, 7 (9), 2655-2661. doi:10.31838/jcr.07.09.429