SIMULATION OF ANN BASED MPPT FED BLADELESS WIND POWER GENERATOR

Authors:

Divya Manukonda,Srinivasa Rao Gorantla,

DOI NO:

https://doi.org/10.26782/jmcms.2019.12.00065

Keywords:

Bladeless wind generator,artificial neural network,maximum power point tracking,

Abstract

The utilization of non conventional energy sources has been increasing from the last few years due to the advantages of low power interruptions, unlimited power supply and non pollutant power generation. The wind power generation is one of the clean energy whose utilization will be an effective solution for global warming and power interruptions. This paper presents the design and simulation of bladeless wind power generation utilizing wind as an energy source and generating power without the use of blades. As wind energy is not constant, an MPPT with artificial neural network has been designed to maintain the voltage and current of bladeless wind generator at its maximum peak values irrespective of weather conditions. The output of the wind generator has been fed to the single phase induction motor which can be used for water pumping applications. The design of the proposed wind generator and the results are simulated by using MATLAB simulink.

Refference:

I. Abhijit Mane, Manoj Kharade, Pravin Sonkambale Shubham Tapase, Sachin
S. Kudte, “Design & Analysis Of Vortex Bladeless Turbine With Gyro EGenerator”,
pp.1-2 , April 2017
II. Banafsheh Seyed-Aghazadeh, Daniel W. Carlson, Yaha Modarres-Sadeghi ,
“The influence of taper ratio on vortex-induced vibration of tapered cylinders
in the cross flow direction” ,Journal Of Fluids And Structures, No.15, July
2014.
III. G. Ganesh, G Vijay Kumar, A.R.Vijay Babu, G. Srinivasa Rao, Y.R.Tagore,
Performance Analysis and MPPT Control of a Standalone Hybrid Power
Generation System, Journal of Electrical Engineering, ISSN: 1582-4594,
Volume 15, Edition: 1, pp. 334-343, 2015.
IV. H.Mueller-Vahl, G. Pechlivanoglou, C.N. Nayeri, And C.O. Paschereit’
“Vortex Generators For Wind Turbine Blades: A Combined Wind Tunnel
And Wind Turbine Parametric Study”, In Proceedings Of Asme Igti Turbo
Expo 2012 Asme/Igti, June 11 -15, 2012.

V. Harikishan Gupta E.: “Design and Operation of Tesla turbo machine”,
International Journal of Advanced Transport Phenomena, Vol. 2, No.01, Jan
Dec 2013.
VI. http://www.vortexbladeless.com
VII. Kavitha, M., et al. “Evaluation of Antimitotic Activity of Mukia
maderaspatana L. Leaf Extract in Allium cepa Root Model.” International
Journal 4.1 (2014): 65-68.
VIII. Prof. Harshith K,Blayan Santhosh Fernandes Shreerama P, R Thilak Raj ,
“Bladeless Wind Power Generation”, (IJSRD) ,Vol.4.No. 03, pp.2321-0613,
2016.
IX. Prof. Saurabh Bobde, Gaurao Gohate, Abhilash Khairkar, Sameer Jadhav,
“Study of Vortex Induced Vibrations for Harvesting Energy” (IJIRSD),
Vol.2.No. 11, pp.2349-6010 April 2016.
X. Rao, B. Venkateswara, et al. “Optimal power flow by Newton method for
reduction of operating cost with SVC models.” 2009 International Conference
on Advances in Computing, Control, and Telecommunication Technologies.
IEEE, 2009.

View Download