Journal of Instrumentation and Innovation Sciences

According to latest scenario about the water problem also day to day increased requirement power taken into consideration here decided to fabricate such kind system that, this system can able to work on non-conventional energy source. According to geographical structures taken into vision, at every place there is availability of Non-conventional energy source with different proportion so here we have decided to create such a system which can be placed anywhere and can be able to operate at any proportion of non-conventional energy source.
This system is able to generate output more than 20 watts over a single generator.Ultimately, this system uses 8 different generators so that, this system can generate maximum output and it depends on RPM of turbine. The manufacturing of system is such a way that,with the minimum rotation of Turbine, the generator can rotate with maximum RPM. This can be possible with the use of gear box arrangement and related assembly. This complete
system is hybrid system that means it can be used to operate on any kind of energy source,
i.e, wind velocity and Water force.

.

Mr. Amit D. Landge, Mr. N. M. Bante,Advanced Hybrid Multi-Power Station

Turbine Structure for Efficient Power Generation, International Journal Of

Engineering Development and Research (International Peer Reviewed, Open Access Journal) ,ISSN: 2321-9939

Mr. Amit D. Landge and Mr. N. M.Bante, Advanced hybrid savonius turbine structure for efficient multistation power generation, International

Journal of Current Research (IJCR),ISSN: 0975:833X

Mr. A.D. Landge, Advanced Hybrid Multi-Power Station Turbine Structure for Efficient Power Generation,Journal of Information, Knowledge and Research in Electronics and Communication (ISSN 0975 – 6779,Gif: 01.6890 – Sif: 02.885)

Colley, G. and Mishra, R.Computational flow field analysis of a

Vertical Axis Wind Turbine, In proceedings of the International

Conference on Renewable Energies and Power Quality, Las Palmas, Gran

Canaria (2011).

Colley, G. and Mishra, R. Effect of rotor blade position on Vertical Axis

Wind Turbine performance, In proceedings of the International

Conference on Renewable Energies and Power Quality (ICREPQ’10)

Granada, Spain (2010).

Park, K.S. Asim, T. and Mishra, R.Computational Fluid Dynamics based

fault simulations of a Vertical Axis Wind Turbine, Journal of Physics:

Conference Series (2012); 364.

Rohatgi, J. and Barbezier, G. Wind turbulence and atmospheric stability –their effect on wind turbine output.Journal of Renewable Energy (1999);

: 908-911.

Sun Y, Zhang L. Numerical Simulation of the Unsteady Flow and Power of Horizontal Axis Wind Turbine using Sliding Mesh, Asia-Pacific Power and

Energy Engineering Conference (2010).

V. Riziotis, Vasilis and Voutsinas, S.Fatigue Loads on Wind Turbines of

Different Control Strategies Operating in Complex Terrain, Journal of Wind

Engineering.

Solum A, Deglaire P, Eriksson S,Stalberg M, Leijon M, Bernhoff H.

Design of a 12 kW vertical axis wind turbine equipped with a direct driven

PM synchronous generator. In: EWEC – European Wind Energy Conference & Exhibition, 2006.