Araştırma Makalesi
BibTex RIS Kaynak Göster

Analysis of electricity generation with combined power systems for residential buildings

Yıl 2023, , 401 - 421, 22.09.2023
https://doi.org/10.58559/ijes.1326395

Öz

Today, energy needs are increasing rapidly. Since our country imports a large part of its energy resources, it is extremely important to use energy efficiently and protect the environment in order to leave a livable world to future generations. One of the losses in energy transmission is transmission loss. In order to prevent this loss all over the world, "distributed energy production" method should be encouraged. Through combined heat and power systems, we can generate heat and electricity and save energy. Cogeneration systems can generally pay for themselves within 1.5-4 years. The aim of this study is to contribute to science with a broad literature review including the design of combined power systems and the technical and economic evaluation of their most efficient applications. The systems in the literature are investigated and comparisons are made. Hydrogen fuel cell types for domestic applications are detailed and hydrogen is considered to be a logical choice. The effects of design and performance parameters are analysed. This combined power system does not harm the nature; it utilises natural resources such as wind, sun and hydrogen, which can also be obtained by electrolysis of water.

Kaynakça

  • [1] Karaagac MO, Kabul A, Yigit F. Performance analysis of a combined natural gas cycle power plant. Journal of Polytechnic 2019; 22(2): 319-325.
  • [2] Karanfil G, Göçen B, İnanç F, Karayel HC, Ünver Ü. Domestic Cogeneration systems. Europe Journal of Science and Technology 2021; 25: 198-206.
  • [3] Yıldız A, Ünver Ü. Yakıt hücreli mikro-kojenerasyon sistemlerinin evsel kullanım açısından incelenmesi. İleri Mühendislik Çalışmaları ve Teknolojileri Dergisi 2021; 2(2): 106-116.
  • [4] Bejan A. Advanced engineering thermodynamics. Wiley, New York, US, 1987.
  • [5] Kotas TJ. The exergy method of thermal plant analysis. Kriger Malabar, Florida, US, 1995.
  • [6] Rosen MA, Dincer I. Energy and exergy analysis of sectoral energy utilization an application for Turkey. The First International Energy and Environment Symposium, Trabzon, Turkey, 1996.
  • [7] Koç E, Şenel, MC. Dünyada ve Türkiye’de enerji durumu - genel değerlendirme. Mühendis ve Makine 2013; 54: 532-544.
  • [8] Yağlı H, Koç Y, Koç A, Görgülü A, Tandiroğlu A. Parametric optimization and energetic analysis comparison of subcritical and supercritical organic Rankine cycle (orc) for biogas fuelled combined heat and power (CHP) engine exhaust gas waste heat. Energy 2016; 111: 923-932.
  • [9] Karagöl ET, Kavaz İ. Dünyada ve Türkiye’de yenilenebilir enerji. SETA, Analiz Dergisi 2017; 4: 5-32.
  • [10] Terzioğlu H, Arslan M, Demirok HD. Rüzgar enerjisi ile elektrik üretimi. Mühendislik Alanında Araştırma Makaleleri 2019; 221.
  • [11] Enerji verimliliği kanunu, Resmi Gazete Kanun (2007); 5627.
  • [12] Unver U, Kilic M. Second law-based thermoeconomic analysis of combined cycle power plants considering the effects of environmental temperature and load variations. International Journal of Energy Research 2007; 31(2): 148-157.
  • [13] Ünver Ü, Kılıç M. Çevre sıcaklığının bir kombine çevrim güç santralinin performansına etkisi. Uludağ Üniversitesi Mimarlık-Mühendislik Dergisi 2005; 49-58.
  • [14] Özenir A. Kojenerasyon enerji verimliliği. V. Enerji Verimliliği Günleri 2019: 1-14.
  • [15] Hidrojen Yakıt Hücresi ve Çalışma Prensibi (2018): In: Tesisat.org.URL: https://www.tesisat.org/hidrojen- yakit-hucresi-ve-calisma-prensibi.html (Retrieved: 02.01.2023).
  • [16] JENS R.Rostrup-Nielsen & Thomas Rostrup-Nielsen (2002): Large Scale Hydrogen Production ,CATTECH, volume 6, no: 4.
  • [17] Çetinkaya M, Karaosmanoğlu F. Yakıt pillerinde hidrojen kullanımı, 3e electrotech, Bileşim Yayıncılık, İstanbul, Türkiye, 2002.
  • [18] Yakıt Hücresi (2022): In: Wikipedia.org. URL: https://tr.wikipedia.org/wiki/Yak%C4%B1t_h%C3%BCcresi (Retrieved: 02.01.2023).
  • [19] Das HS, Tan CW. Hybrid Renewable Energy Systems and Microgrids, Academic Press, Cambridge, US, 2021.
  • [20] Combined Heat and Power (2022): In: siemens-energy.com. URL:https://www.siemens- energy.com/global/en/offerings/power-generation/distributed-power/combined-heat-and-power.html
  • [21] Yılmazoğlu M, Timoçin A, Şenlik A, Al K, Ünver Ü. Investigation of fuel-cell cogeneration systems for energy efficient buildings. El-Cezerî Journal of Science and Engineering 2021; 8(2): 766-781.
Yıl 2023, , 401 - 421, 22.09.2023
https://doi.org/10.58559/ijes.1326395

Öz

Kaynakça

  • [1] Karaagac MO, Kabul A, Yigit F. Performance analysis of a combined natural gas cycle power plant. Journal of Polytechnic 2019; 22(2): 319-325.
  • [2] Karanfil G, Göçen B, İnanç F, Karayel HC, Ünver Ü. Domestic Cogeneration systems. Europe Journal of Science and Technology 2021; 25: 198-206.
  • [3] Yıldız A, Ünver Ü. Yakıt hücreli mikro-kojenerasyon sistemlerinin evsel kullanım açısından incelenmesi. İleri Mühendislik Çalışmaları ve Teknolojileri Dergisi 2021; 2(2): 106-116.
  • [4] Bejan A. Advanced engineering thermodynamics. Wiley, New York, US, 1987.
  • [5] Kotas TJ. The exergy method of thermal plant analysis. Kriger Malabar, Florida, US, 1995.
  • [6] Rosen MA, Dincer I. Energy and exergy analysis of sectoral energy utilization an application for Turkey. The First International Energy and Environment Symposium, Trabzon, Turkey, 1996.
  • [7] Koç E, Şenel, MC. Dünyada ve Türkiye’de enerji durumu - genel değerlendirme. Mühendis ve Makine 2013; 54: 532-544.
  • [8] Yağlı H, Koç Y, Koç A, Görgülü A, Tandiroğlu A. Parametric optimization and energetic analysis comparison of subcritical and supercritical organic Rankine cycle (orc) for biogas fuelled combined heat and power (CHP) engine exhaust gas waste heat. Energy 2016; 111: 923-932.
  • [9] Karagöl ET, Kavaz İ. Dünyada ve Türkiye’de yenilenebilir enerji. SETA, Analiz Dergisi 2017; 4: 5-32.
  • [10] Terzioğlu H, Arslan M, Demirok HD. Rüzgar enerjisi ile elektrik üretimi. Mühendislik Alanında Araştırma Makaleleri 2019; 221.
  • [11] Enerji verimliliği kanunu, Resmi Gazete Kanun (2007); 5627.
  • [12] Unver U, Kilic M. Second law-based thermoeconomic analysis of combined cycle power plants considering the effects of environmental temperature and load variations. International Journal of Energy Research 2007; 31(2): 148-157.
  • [13] Ünver Ü, Kılıç M. Çevre sıcaklığının bir kombine çevrim güç santralinin performansına etkisi. Uludağ Üniversitesi Mimarlık-Mühendislik Dergisi 2005; 49-58.
  • [14] Özenir A. Kojenerasyon enerji verimliliği. V. Enerji Verimliliği Günleri 2019: 1-14.
  • [15] Hidrojen Yakıt Hücresi ve Çalışma Prensibi (2018): In: Tesisat.org.URL: https://www.tesisat.org/hidrojen- yakit-hucresi-ve-calisma-prensibi.html (Retrieved: 02.01.2023).
  • [16] JENS R.Rostrup-Nielsen & Thomas Rostrup-Nielsen (2002): Large Scale Hydrogen Production ,CATTECH, volume 6, no: 4.
  • [17] Çetinkaya M, Karaosmanoğlu F. Yakıt pillerinde hidrojen kullanımı, 3e electrotech, Bileşim Yayıncılık, İstanbul, Türkiye, 2002.
  • [18] Yakıt Hücresi (2022): In: Wikipedia.org. URL: https://tr.wikipedia.org/wiki/Yak%C4%B1t_h%C3%BCcresi (Retrieved: 02.01.2023).
  • [19] Das HS, Tan CW. Hybrid Renewable Energy Systems and Microgrids, Academic Press, Cambridge, US, 2021.
  • [20] Combined Heat and Power (2022): In: siemens-energy.com. URL:https://www.siemens- energy.com/global/en/offerings/power-generation/distributed-power/combined-heat-and-power.html
  • [21] Yılmazoğlu M, Timoçin A, Şenlik A, Al K, Ünver Ü. Investigation of fuel-cell cogeneration systems for energy efficient buildings. El-Cezerî Journal of Science and Engineering 2021; 8(2): 766-781.
Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Enerji
Bölüm Research Article
Yazarlar

Eren Aküzüm 0009-0005-1876-3684

Erdem Çiftçi 0000-0003-2493-5962

Yayımlanma Tarihi 22 Eylül 2023
Gönderilme Tarihi 12 Temmuz 2023
Kabul Tarihi 4 Ağustos 2023
Yayımlandığı Sayı Yıl 2023

Kaynak Göster

APA Aküzüm, E., & Çiftçi, E. (2023). Analysis of electricity generation with combined power systems for residential buildings. International Journal of Energy Studies, 8(3), 401-421. https://doi.org/10.58559/ijes.1326395
AMA Aküzüm E, Çiftçi E. Analysis of electricity generation with combined power systems for residential buildings. Int J Energy Studies. Eylül 2023;8(3):401-421. doi:10.58559/ijes.1326395
Chicago Aküzüm, Eren, ve Erdem Çiftçi. “Analysis of Electricity Generation With Combined Power Systems for Residential Buildings”. International Journal of Energy Studies 8, sy. 3 (Eylül 2023): 401-21. https://doi.org/10.58559/ijes.1326395.
EndNote Aküzüm E, Çiftçi E (01 Eylül 2023) Analysis of electricity generation with combined power systems for residential buildings. International Journal of Energy Studies 8 3 401–421.
IEEE E. Aküzüm ve E. Çiftçi, “Analysis of electricity generation with combined power systems for residential buildings”, Int J Energy Studies, c. 8, sy. 3, ss. 401–421, 2023, doi: 10.58559/ijes.1326395.
ISNAD Aküzüm, Eren - Çiftçi, Erdem. “Analysis of Electricity Generation With Combined Power Systems for Residential Buildings”. International Journal of Energy Studies 8/3 (Eylül 2023), 401-421. https://doi.org/10.58559/ijes.1326395.
JAMA Aküzüm E, Çiftçi E. Analysis of electricity generation with combined power systems for residential buildings. Int J Energy Studies. 2023;8:401–421.
MLA Aküzüm, Eren ve Erdem Çiftçi. “Analysis of Electricity Generation With Combined Power Systems for Residential Buildings”. International Journal of Energy Studies, c. 8, sy. 3, 2023, ss. 401-2, doi:10.58559/ijes.1326395.
Vancouver Aküzüm E, Çiftçi E. Analysis of electricity generation with combined power systems for residential buildings. Int J Energy Studies. 2023;8(3):401-2.