Yenilenebilir enerji santral (YES) üretimleri, iklim koşullarına bağlı olarak sürekli değişmektedir. Bu sürekli değişim şebekenin güç-frekans dengesi üzerinde bozucu etkilere neden olmaktadır. YES üretim değişimlerinin etkilerini azaltmanın üç farklı yolu vardır: Şebeke sistemlerini birbirine bağlamak, enerjiyi depolamak ve enerji kaynakları arasındaki zamansal tamamlamadan faydalanmaktır. Yapılan bu çalışmada üç farklı yenilenebilir enerji kaynağı arasındaki zamansal tamamlamadan faydalanılarak daha kararlı bir enerji karışımı elde edilmiştir. Çalışma Kahramanmaraş ili için gerçekleştirilmiştir. Hesaplamaların gerçeğe yakın olması amacıyla ilde işletilmekte olan üç farklı YES’ten (hidroelektrik santral (HES), güneş enerjisi santrali (GES) ve rüzgar e (RES)) gerçek üretim verileri alınmıştır. Yapılan hesaplamalar sonucunda incelenen HES, GES ve RES nerjisi santrali üretimlerinin optimum karışım oranları sırasıyla %14, %56 ve %30 olarak elde edilmiştir. Kahramanmaraş İli’nde bu oranlar dikkate alınarak tesisler kurulursa üretimin daha kararlı bir hale geleceği görülmüştür. Bu durumda YES üretimlerinin geleneksel şebeke sistemlerinin, güç-frekans dengesi üzerindeki bozucu etkisi de azalacaktır.
The production of renewable energy plants (YES) is constantly changing depending on climate conditions. This constant change causes disturbing effects on the power-frequency balance of the network. There are three different ways to reduce the effects of YES production changes: connecting network systems, storing energy, and taking advantage of the time-long completion between energy sources. In this study, a more stable energy mix was achieved by taking advantage of the timely completion between three different renewable energy sources. The work was carried out for the hero. Three different YES (hydroelectric power plant), solar power plant (GES) and wind e (RES) that are operating in the province were taken real production data in order to be close to reality. The optimum mix rate of the HES, GES and RES nerve plant production, which was studied as a result of the calculations, was achieved at 14%, 56% and 30% respectively. In the Kahramanmaraş Illi, if these rates are taken into account, the facilities will be established and the production will become more stable. In this case, the disturbing impact of the traditional network systems of YES production on the power-frequency balance will also be reduced.
Renewable energy power plant (REPP) generations varies continuously depending on climatic conditions. This continuous change causes disruptive effects on the frequency-power balance of the grid. There are three different ways to mitigate these effects of REPP generation changes: Connecting grid systems, storing energy and using the temporal completion between energy sources. In this study, a more stable energy mix was obtained by using the temporal completion between three different renewable energy sources. The study was carried out for Kahramanmaraş province. Data were obtained from three different (REPP) (hydroelectric power plant (HEPP), solar power plant (SPP) and wind power plant (WPP) operated in the province to make the calculations more realistic. As a result of the calculations, optimum mix rates of investigated HEPP, SPP and WPP generations were obtained as 14%, 56% and 30% respectively. In Kahramanmaraş province, it is seen that if the plants are installed by taking these rates into consideration, production will become more stable. In this case, the disruptive effect of REPP generations on the frequency-power balance of traditional grid systems will also be reduced.
Alan : Mühendislik
Dergi Türü : Ulusal
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