Design and fabricate of tiny wind turbine in Tikrit - Iraq
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Abstract
The DC electric Power system depending on Horizontal-Axis Wind
Turbine (HAWT), designed and manufactured by using and assembling an
available low cost materials several primary and secondary parts of the
system are modified to gam a good result's on producing electric power,
we are capable to get 15 V (DC) . It is as found that when wind speed is of
6.2 m/sec ,route per minute is 100 rpm, power coefficient 0.5 and
the gain power is 20 W
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References
[1] Stine, W. B. and Geyer, M.(2001). Power From The Sun ,copyright http://powerfromthesun.net/book.html ,
[2] Behl, R.K.; Chhibar, R.N.; Jain, S.; Bahl, V.P. and Bassam, N.El. (2012 ). Renewable Energy Sources and their Applications. Proceedings of the International Conference on Renewable Energy for Institutes and Communities in Urban and Rural Settings, 27-29 April 2012.
[3] Kumar, A.G. and Naveen, K. A. ( 2016). A review of recovery of energy from waste. International Journal of Engineering Research, 5(6): 1129 – 1254.
[4] Imre, T. (2017). Yields of PV Solar Energy Systems and Operational Efficiency, Ph.D. thesis university of debrecen.
[5] Jacob, A. and Andrew, B. (2012). Tutorial of Wind Turbine Control for Supporting Grid Frequency through Active Power Control. American Control Conference Montreal, Canada 27-29 June 2012.
[6] Sandra, E. and Hans, B. (2016). A Review of Research on Large Scale Modern Vertical Axis Wind Turbines at Uppsala University.Energies, 9(570):3-16.
[7] Trftdy, L.F. (1997). An Introduction to the Small Wind Turbine project, Presented at Wind power 97 Aftstin, Texas Jftne 15-18.
[8] Alexander, B. (2004). Utilization of Wind Energy at High Altitude. International Energy Conversion Engineering Conference at Providence., RI,.16-19 Aug 2004.
[9] Al janaby, M.K. (2008). the possibility of using wind power to generator electrical in Iraq. international scientific conference, sustainable development and efficiency of available materials, 7-8 April 2008.
[10] Bedri, K. and Ali, E. (2015). A New Wind Turbine Concept: Design and Implementation. Acta Polytechnica Hungarica, 12(3):199.
[11] Chandak, K.; Supekar, A. and Jobanputra , P. (2016). Ship with Wind Mills, 2nd International Conference on Recent Trendsin Engineering Science and Management (ICRIESM-16) International International Center, YMCA, New Delh ISBN 978-81-932074 JT ,20 February 2016.
[12] Rasham, A.M. (2016). Analysis of Wind Speed Data and Annual Energy Potential at Three locations in Iraq. International Journal of Computer Applications, 137(11):5-7.
[13] Rehman, S. and Alam, M.M. (2018). Horizontal Axis Wind Turbine Blade Design Methodologies for Efficiency Enhancement-A Review. Energies, 11(506): 2-10.
[14] Hassoon, A.F. (2013). Assessment potential wind energy in the north area of Iraq. International journal of energy and environment, 4(5):807-814.
[15] Johansen, J.; Madsen, A.; Gaunaa, M. and Bak, C. (2009). Design of a wind Turbine Rotor for Maximum Aerodynamic Efficiency. Wind Energy, 12(261): 20.
[16] Thomas, C. (2015). Wind Energy Design. University of Notre Dame Aerospace and Mechanical Engineering Department Hessert Laboratory for Aerospace Research Notre Dame, IN 46556,.