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A WIND POWER PLANT FEASIBILITY STUDY FOR BURSA, GEMLIK REGION IN TURKEY BY WINDSIM SOFTWARE

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Abstract (2. Language): 
Development of technology and industry has been causing a remarkable energy demand all around the world. In order to meet this huge energy demand, conventional energy sources are being used a lot and this issue brings along a serious environmental pollution. Especially, last decades many countries have signed the agreements to prevent environmental pollution. In conjunction with these events, renewable energy sources have become important. In this context, most of countries have been increasing the incentives to the clean energy systems. Also, Turkey has been increasing the incentives to renewable energy investments; therefore renewable energy usage is increasing day by day. In 2015, Turkey’s total installed capacity has reached 72146.7 MW and 42.7% of this amount is met by renewable energy sources. In Turkey most commonly used renewable energy sources are hydroelectric energy, wind energy, solar energy and geothermal energy respectively. In 2013, installed wind energy capacity of Turkey was 2759.6 MW and this capacity reached 4503.2 MW in 2015. It can be deduced from this data, wind power investment in Turkey has been expanding dramatically. In this study, a wind power plant (WPP) feasibility study for Gemlik region in Bursa Province is released by using 5 number of Vestas V90 commercial wind turbines. Also, climatology data obtained from Turkish State Meteorological Service are used for this study and by applying these date to the Windsim software; annual energy production (AEP) and capacity factor of the WPP are calculated. The study shows that, establishment of a WPP which has 30.6 GWh/y AEP and 34.9% capacity factor is feasible.
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REFERENCES

References: 

[1] Kyoto Protocol to the United Nations Framework Convention on Climate Change". UN Treaty Database. Retrieved 27 November 2014.
[2] S. Liu, A. Wilkes, Y. e. Li, Q. Gao, Y. Wan, X. Ma, and X. Qin (2016). Contribution of different sectors to developed countries’ fulfillment of GHG emission reduction targets under the first commitment period of the Kyoto Protocol. Environmental Science & Policy. Vol. 61. Page. 143-153.
[3] S. A. Akdağ, and Ö. Güler (2010). Evaluation of wind energy investment interest and electricity generation cost analysis for Turkey. Applied Energy. Vol. 87, No. 8. Pages. 2574-258.
[4] B. Baran, M. S. Mamis, and B. B. Alagoz (2016). Utilization of energy from waste potential in Turkey as distributed secondary renewable energy source. Renewable Energy. Vol. 90. Pages. 493-500.
[5] M. Çapik, A. O. Yılmaz, and İ. Çavuşoğlu (2012). Present situation and potential role of renewable energy in Turkey. Renewable Energy. Vol. 46. Pages. 1-13.
[6] http://www.tureb.com.tr/files/bilgi_bankasi/turkiye_res_durumu/new_repor...
[7] http://www.tureb.com.tr/files/bilgi_bankasi/turkiye_res_durumu/2016_turk...
Turkey’s Energy Economy and Future Energy Vision [Online]. Available: http://turkishpolicy.com/Files/ArticlePDF/turkeys-energy-economy-and-fut...
[8] (2002) The IEEE website. [Online]. Available: http://www.ieee.org/
[9] B. Şenel, M. Şenel and L. Bilir (2014). Role of wind power in the energy policy of Turkey. Energy Technology & Policy. Vol. 1. Page. 123-130.
[10] M. A. Özgür (2009). Turkey’s renewable energy potential. Renewable Energy. Vol. 33. Pages. 2345-2356.
[11] N. Boccard (2009). Capacity factor of wind power realized values vs. Estimates. Energy Policy. Vol. 37. Pages. 2679-2688.
[12] S. Keleş, S. Bilgen (2012).Renewable energy sources in Turkey for climate change mitigation and energy sustainability. Renewable Energy and Sustainable Energy Reviews. Vol. 16. Pages. 5199-5206.
[13] (2016) Bursa Metropolitan Municipality website. [Online]. Available: http://www.bursa.com.tr/
[14] (2015) REPA-Wind Energy Potential Map of Turkey, General Directorate of Electrical Power Resources Survey and Development Administration. [Online]. Available: https://www.eie.gov.tr/yekrepa/BURSA-REPA.pdf
[15] https://www.windsim.com/about.aspx
[16] G. Crasto, A. R. Gravdahl, F. Castellani and E. Piccioni (2012). Wake modeling with the actuator disc concept. Energy Procedia. Vol. 24. Pages. 385-392.
[17] S. Özdede, ‘’Wind resource assessment and wind farm modeling in complex errain: Bodrum peninsula case study using computational fluid dynamics,’’ M. Eng. thesis, Middle East Technical University, Ankara, Sep. 2013.
[18] http://www.planningni.gov.uk/index/policy/policy_publications/planning_s...

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