Dr. Ali Vardar

Associate Professor
Uludag University, Turkiye

Highest Degree
Ph.D. in Renewable Energy from Uludag University, Bursa, Turkiye

My URL
https://livedna.org/90.5079

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Area of Interest:

Physical Science Engineering
Material Engineering
Solar Energy
Renewable Energy
Electronics

Selected Publications

  1. Vardar, A., R. Okursoy and Y. Tekin, 2012. Local Wind Characteristics for East Thrace, Turkey. Energy Sources Part B, 7: 1-9.
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  2. Vardar, A., F. Kurtulmus and A. Darga, 2011. Local Indications of Climate Changes in Turkey: Bursa As A Case Example. Clim. Change, 106: 255-266.
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  3. Vardar, A., B. Eker, M.R. Durgut, E. Okur and F. Kurt, 2011. Modeling Studies on the Relation Between Wind Speed and Height: Tekirdag Sample. Energy Educ. Sci. Technol. Part A, 27: 383-388.

  4. Kurtulmus, F., W.S. Lee and A. Vardar, 2011. Green Citrus Detection Using 'Eigenfruit', Color and Circular Gabor Texture Features Under Natural Outdoor Conditions. Comput. Electron. Agric., 78: 140-149.
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  5. Vardar, A., N. Izli and F. Kurtulmus, 2010. Aerodynamic Performance of Some Wind Turbine Rotor Models. J. Agric. Faculty Uludag Univ., 24: 1-9.
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  6. Vardar, A. and B. Cetin, 2009. Economic Assessment of the Possibility of Using Different Types of Wind Turbine in Turkey. Energy Sources Part B, 4: 190-198.
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  7. Tipi, T., B. Cetin and A. Vardar, 2009. An Analysis of Energy Use and Input Costs for Wheat Production in Turkey. J. Food Agric. Environ., 7: 352-356.
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  8. Vardar, A., Y. Tekin and R. Okursoy, 2008. Regional Wind Energy Characteristics for Istanbul, Turkey. Energy Sources Part B, 3: 331-339.
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  9. Vardar, A. and I. Alibas, 2008. Research on wind turbine rotor models using NACA profiles. Renewable Energy, 33: 1721-1732.
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  10. Cetin, B. and A. Vardar, 2008. An Economic Analysis of Energy Requirements and Input Costs for Tomato Production in Turkey. Renewable Energy, 33: 428-433.
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  11. Vardar, A. and B. Cetin, 2007. Cost Assessment of the Possibility of Using Three Types of Wind Turbine in Turkey. Energy Explor. Exploit., 25: 71-82.
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  12. Kurtulmus, F., A. Vardar and N. Izli, 2007. Aerodynamic analyses of different wind turbine blade profiles. J. Applied Sci., 7: 663-670.
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  13. Izli, N., A. Vardar and F. Kurtulmu, 2007. A study on aerodynamic properties of some NACA profiles used on wind turbine blades. J. Applied Sci., 7: 426-433.
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  14. Vardar, A. and H. Unal, 2006. A research towards meeting the electricity demand of a plant via wind turbine. J. Applied Sci., 6: 1176-1181.
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  15. Vardar, A. and B. Eker, 2006. Principle of rotor design for horizontal axis wind turbines. J. Applied Sci., 6: 1527-1533.
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  16. Vardar, A. and B. Eker, 2006. Mathematical Modelling of Wind Turbine Blades Though Volumetric View. Wind Struct. Int. J., 9: 493-503.
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  17. Vardar, A. and B. Eker, 2006. Design of a Wind Turbine Working with the Continuity Principal. Energy Explor. Exploit., 24: 349-359.
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  18. Eker, B., A. Akdogan and A. Vardar, 2006. Using of composite material in wind turbine blades. J. Applied Sci., 6: 2917-2921.
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  19. Vardar, A. and B. Eker, 2004. The Wind tunnel measuring methods for wind turbine rotor blades. Wind Struct., 7: 305-316.

  20. Vardar, A. and B. Eker, 2004. An experiment on the electric energy performance of the wind turbine rotors. J. Applied Sci., 4: 144-148.
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Member since December, 2012