Dr. Ali  Vardar
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Dr. Ali Vardar

Associate Professor
Uludag University, Turkiye


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

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Area of Interest:

Physical Science Engineering
100%
Material Engineering
62%
Solar Energy
90%
Renewable Energy
75%
Electronics
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

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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