Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2019, , 186 - 196, 30.12.2019
https://doi.org/10.36222/ejt.660950

Öz

Kaynakça

  • [1] Republic of Turkey Ministry of Energy and Natural Resources, http://www.enerji.gov.tr/tr-TR/Sayfalar/Elektrik/ Accessed on May 16, 2019.
  • [2] Global Wind Energy Council, https://gwec.net/publications/global-wind-report-2/global-wind-report-2016/ Accessed on May 10, 2019.
  • [3] International Renewable Energy Agency, https://irena.org/publications/2018/Jul/Renewable-Energy-Statistics-2018 / Accessed on May 26, 2019.
  • [4] Turkey Legal Gazette, http://www.resmigazete.gov.tr/eskiler/2017/04/20170422-8-1.pdf/ Accessed on June 01, 2019.
  • [5] Demirol, E., Demirol, T. (2015). Simulation Modeling for Network Connection Analysis of Wind Power Plants. Gazi Journal of Engineering Sciences, 1(3), 351-368.
  • [6] Rona, B., Integration of Wind Power Plants to Power System and Analysis According to Grid Regulation. MSc.Thesis, Istanbul Technical University, 2014.
  • [7] Uzun, S., et. al (2015). Integration criteria of Turkish wind energy generation plants and assessment of the criteria by analysis. 9th International Conference on Electrical and Electronics Engineering (ELECO), Bursa, Turkey, 1039-1042.
  • [8] http://www.poweranalytics.com/introducing-designbase-6-0/ Accessed on June 11, 2019
  • [9] Kiliç, H., Khaki, B., Gumuş, B., Yilmaz, M., & Asker, M. E. (2018, November). Stability Analysis of Islanded Microgrid with EVs. In 2018 Smart Grid Conference (SGC) (pp. 1-5). IEEE.
  • [10] Yılmaz, M. (2018). Real measure of a transmission line data with load fore-cast model for the future. Balkan Journal of Electrical & Computer Engineering (BAJECE), Vol 6, No 2, pp.141-145.
  • [11] Samancıoğlu, G., Wind Basin Planning and Modeling of the Effects of Wind Power Plants to the Network with Digilent Program. MSc.Thesis, Gazi University, 2014.
  • [12] Tür, M. R. (2019). The Impact of Emerging Renewable Energy on Capacity Mechanisms in Power Systems and Expert Opinion. Balkan Journal of Electrical and Computer Engineering, 7(3), 319-325.

INTEGRATION OF WIND POWER PLANTS TO THE GRID AND REACTIVE POWER SUPPORT

Yıl 2019, , 186 - 196, 30.12.2019
https://doi.org/10.36222/ejt.660950

Öz

The conversion of wind energy into electrical energy is one of the most environmentally sustainable methods of energy today. According to statistics published by the World Wind Energy Association, the total capacity of wind turbines installed worldwide at the beginning of 2019 exceeded 598 GW. Looking at the situation in Turkey, the number of wind power plants under operation is 180 according to published statistics at January 2019 by the Turkish Wind Energy Association. The total installed capacity of these power plants is 7369.35 MW. By the increasing of wind power capacity, the connection criteria of the power plants which are taken over to the grid become more critical. Although there are systems that are clean, renewable, and reduce external dependence on energy, power quality problems can occur in the grid connections of all wind power plants. In this respect, the grid connection criteria of wind turbines of the countries are essential. The connection requirements of wind turbines in Turkey, on April 22, 2017, revised Turkish Grid Code are determined under Appendix-18. Wind power plants connect to the grid from a medium voltage or high voltage level. At the grid connection point, there are some conditions that the plant must be met like changing wind conditions, switching, fault, etc. These requirements can be summarized as reactive power support, frequency response, contribution to the post-fault system. In this study, the reactive power capacity of a 9x3.6 MW Wind Power Plant to the grid is simulated and investigated.

Kaynakça

  • [1] Republic of Turkey Ministry of Energy and Natural Resources, http://www.enerji.gov.tr/tr-TR/Sayfalar/Elektrik/ Accessed on May 16, 2019.
  • [2] Global Wind Energy Council, https://gwec.net/publications/global-wind-report-2/global-wind-report-2016/ Accessed on May 10, 2019.
  • [3] International Renewable Energy Agency, https://irena.org/publications/2018/Jul/Renewable-Energy-Statistics-2018 / Accessed on May 26, 2019.
  • [4] Turkey Legal Gazette, http://www.resmigazete.gov.tr/eskiler/2017/04/20170422-8-1.pdf/ Accessed on June 01, 2019.
  • [5] Demirol, E., Demirol, T. (2015). Simulation Modeling for Network Connection Analysis of Wind Power Plants. Gazi Journal of Engineering Sciences, 1(3), 351-368.
  • [6] Rona, B., Integration of Wind Power Plants to Power System and Analysis According to Grid Regulation. MSc.Thesis, Istanbul Technical University, 2014.
  • [7] Uzun, S., et. al (2015). Integration criteria of Turkish wind energy generation plants and assessment of the criteria by analysis. 9th International Conference on Electrical and Electronics Engineering (ELECO), Bursa, Turkey, 1039-1042.
  • [8] http://www.poweranalytics.com/introducing-designbase-6-0/ Accessed on June 11, 2019
  • [9] Kiliç, H., Khaki, B., Gumuş, B., Yilmaz, M., & Asker, M. E. (2018, November). Stability Analysis of Islanded Microgrid with EVs. In 2018 Smart Grid Conference (SGC) (pp. 1-5). IEEE.
  • [10] Yılmaz, M. (2018). Real measure of a transmission line data with load fore-cast model for the future. Balkan Journal of Electrical & Computer Engineering (BAJECE), Vol 6, No 2, pp.141-145.
  • [11] Samancıoğlu, G., Wind Basin Planning and Modeling of the Effects of Wind Power Plants to the Network with Digilent Program. MSc.Thesis, Gazi University, 2014.
  • [12] Tür, M. R. (2019). The Impact of Emerging Renewable Energy on Capacity Mechanisms in Power Systems and Expert Opinion. Balkan Journal of Electrical and Computer Engineering, 7(3), 319-325.
Toplam 12 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Elektrik Mühendisliği
Bölüm Araştırma Makalesi
Yazarlar

Onur Takır

Haydar Bayar 0000-0002-4086-938X

Erkan Dursun

Yayımlanma Tarihi 30 Aralık 2019
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

APA Takır, O., Bayar, H., & Dursun, E. (2019). INTEGRATION OF WIND POWER PLANTS TO THE GRID AND REACTIVE POWER SUPPORT. European Journal of Technique (EJT), 9(2), 186-196. https://doi.org/10.36222/ejt.660950

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