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Comparative Evaluation of Solar Houses Applied in Turkey

Year 2021, Issue: 31, 40 - 54, 31.12.2021
https://doi.org/10.31590/ejosat.980786

Abstract

The construction sector consumes a significant portion of the energy resources irreversibly and harms the environment. Limited resources and emerging environmental problems have made it necessary to search for new energy resources in the world and in our country, and to use renewable energy sources, environmentally friendly and energy efficient building designs in the building sector. In this context, the issues of solar energy, which is one of the clean and renewable sources and the use of solar energy in buildings, have gained importance. Although Turkey is in advantageous position compared to European countries in terms of potential solar energy, solar energy is not sufficiently utilized in buildings and studies are limited to academic studies. Solar houses, which are built in Turkey in order to benefit from solar energy with active and passive methods in heating, cooling, lighting and ventilation of buildings, consist of single examples designed with different functions. The aim of this study is to emphasize the importance of the use of solar energy in buildings within the scope of renewable energy sources, to examine the solar houses applied in Turkey comparatively and to make suggestions for solar house design.

Supporting Institution

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Project Number

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Thanks

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References

  • Akdeniz, H. A. (1989). Economic Analysis of Alternative Decisions in Optimum Building Heating System Selection. Unpublished Ph. D. Ege University Institute of Solar Energy. Izmir Turkey.
  • Alparslan, B., Gültekin, A.B. and Dikmen, Ç.B. (2009). Ekolojik Yapı Tasarım Ölçütlerinin Türkiye’deki Güneş Evleri Kapsamında İncelenmesi, 5. Uluslararası İleri Teknolojiler Sempozyumu (IATS ’09), 13-15 Mayıs Karabük. http://iats09.karabuk.edu.tr/press/bildiriler_pdf/IATS09_08-99_982.pdf, 15.01.2021
  • Alparslan, B. (2010). Ekolojik Yapı Tasarım Ölçütleri Kapsamında Ankara’da Örnek Bir Yapı Tasarımı ve Değerlendirmesi, Yayımlanmamış Yüksek Lisans Tezi, Gazi Üniversitesi, Fen Bilimleri Enstitüsü, Ankara.
  • Altuntop, N. (1996). Erciyes University Solar House. Journal of Building. 177/8. pp. 43-45.
  • Altuntop, N. (2005). History of Solar Energy in Turkey, in the 50-Year History of the International Solar Energy Society and its National Sections, (Chapter), Böer, K.W., Eds., International Solar Energy Society Newyork, pp. 437-454.
  • Altuntop, N (2008). Investigation of Technical and Thermal Properties of Solar Houses in Turkey, New Energy, p. 6, Turkey.
  • Arsan Durmuş, Z. (2008) Sustainability Architecture in Turkey, Journal of Architecture. 340 http://www.mimarlikdergisi.com/index.cfm?sayfa=mimarlik&DergiSayi=290&RecID=1701 22.06.2021
  • Bekar, D. (2007). Analysis of Active Energy Systems in Ecological Architecture. Unpublished M.Sc. Thesis. Yıldız Technique University, Institute of Science and Technology. Istanbul Turkey.
  • Benli, H. (2016). Potential Application of Solar Water Heaters for Hot Water Production in Turkey, Renewable and Sustainable Energy Reviews, 54, p. 99-109. http://www.sciencedirect.com/science/article/pii/S136403211501031X, 08.05.2021.
  • Bozdoğan, B. (2003). Architectural Design and Ecology. Unpublished M.Sc. Thesis. Yıldız Technique University. Institute of Science and Technology. Istanbul Turkey. Çukurova University Solar House-UZAYMER, https://uzaymer.cu.edu.tr/, 14.02.2017
  • Delihasanlar, E., Yaylacı, E.K. and Dalcalı, A. (2019). Solar Energy Potential in the World and Turkey, Current Status, Incentives, Installation Cost Analysis-Karabuk Province Sample. Electronic Letters on Science & Engineering 15 (1) pp.12-20. https://dergipark.org.tr/tr/pub/else/issue/47861/590789, 15.06.2021.
  • Demirbilek, F.N., Yalçıner, U.G., Ecevit, A. Özgümüş, M. (1997a). METU Solar House, Proceedings of Solar’97, Sustainable Energy, 35th Annual Conference, Canberra: Australian and New Zealand Solar Energy Society pp. 1-5. http://eprints.qut.edu.au/4369/1/4369.pdf, 03.06.2021.
  • Demirbilek, F.N., Şahmalı, E. and İnanıcı M. (1997b). A Passively Climatized Building, 2500 m. above Sea Level, The Proceedings of Solar ‘97. Canberra: Australian and New Zealand Solar Energy Society.
  • Demirbilek, F.N., Yalçıner, U.G., Ecevit, A. Şahmalı, E. and İnanıcı M. (2003). Analysis of the Thermal Performance of a Building Design Located at 2465m: Antalya-Saklıkent National Observatory Guesthouse, Building and Environment. (38) pp.177-184
  • Demircan Kılıç, R. and Gültekin, A.B. (2017). Binalarda Pasif ve Aktif Güneş Sistemlerinin İncelenmesi, Turkish Science Research Foundation Journal of Tubav Science. 10 (1) pp. 36-51
  • Dikmen, Ç.B. and Gültekin, A.B. (2011). Usage of Renewable Energy Resources in Buildings in the Context of Sustainability, Journal of Engineering Science and Design, (1) 3, pp. 96-100. http://dergipark.ulakbim.gov.tr/sdumuhtas/article/view/1089001725, 05.07.2013.
  • Diyarbakır Solar House a, www.ekoyapidergisi.org, 05.02.2021.
  • Diyarbakır Solar House b, https://v3.arkitera.com/h30516-diyarbakira-gunes-evi.html, 15.06.2021.
  • Diyarbakır Solar House c, http://www.erengezgin.net/diyarbakir_fotolar.html, 22.01.2021.
  • Diyarbakır Solar House d https://www.google.com/search?sxsrf=ALeKk00JZnL6kAYJ-lCGvPnyJyJS1HVjpQ:1628332841961&source=univ&tbm=isch&q=%C3%A7elik+erengezgin+g%C3%BCne%C5%9F+evi&sa, 15.04.2021.
  • Ecevit, A. and Demirbilek, F.N. (1994). Solar Energy Studies in the Middle East Technical University, In Proceedings of the National Seminar on Turkish Solar Energy Activities and International Energy Agency Solar Heating and Cooling Programme Tasks, Ankara.
  • Energy Efficiency Training Facility http://ordem.com.tr/index.php/proje/elektrik-isleri-etut-idaresi-genel-mudurlugu-sahasi/, 22.01.2021.
  • Eskin, N. (2006). Solar Energy Research and Development in Turkey, Journal of Installation Engineering 91. pp. 74-82. Turkey. http://www.solar-academy.com/menuis/turkiye-de-gunes-enerjisi-arastirma-ve-gelistirme.032758.pdf, 12.07.2021
  • Google Images, Ege University Solar Energy Institute and Solar-Powered Drying House (2021). https://www.google.com/search?q=ege+g%C3%BCne%C5%9F+enerjisi+enstit%C3%BCs%C3%BC&sxsrf=ALeKk03ZNHuVXuyVJmjFz_1aQoAuqrKQhQ:1628264528895&source=lnms&tbm=, 24.05.2021
  • Göksu, Ç. (2008). Türkiye’deki İlk Sürdürülebilir Uygulama http://www.mimarizm.com/makale/turkiye-deki-ilk-surdurulebilir-uygulama-odtu-gunes-ev-projesi_113587, 12.08.2016.
  • Gültekin, A.B. and Alparslan, B. (2011). Ecological Building Design Criteria: A Case Study in Ankara, Gazi University Journal of Science 24(3), pp. 605-616, Turkey. http://dergipark.gov.tr/download/article-file/83396, 12.11.2016.
  • Hacettepe University Solar House a, http://www.yetam.hacettepe.edu.tr/, 05.02.2021.
  • Hacettepe University Solar House b http://www.yetam.hacettepe.edu.tr/icerik/basin_2.jpg 16.04.2021
  • Irklı, D. and Demirbilek, F.N. (2000). Architecture of the Anatolia Solar Energy, IIIth National Clean Energy Symposium, Symposium Book, V. 1, pp. 245-254. İstanbul. Istanbul Technique University Eco-building a, http://www.hasmimarlik.com.tr/projeler/proje_frame.html, 20.06.2021.
  • Istanbul Technique University Eco-building b, http://surdurulebilir-mimari.blogspot.com/2011/11/eko-yapi-projesi.html, 05.02.2021.
  • Kaygusuz, K. (2002), Environmental impacts of energy utilisation and renewable energy policies in Turkey Energy Policy 30 pp. 689–698 https://www.sciencedirect.com/science/article/abs/pii/S0301421502000320, 15.06.2021
  • Keçel, S. (2007). Development of a Model for Meeting the Household Electricity Need with Solar Panels in Various Regions of Turkey, Unpublished M.Sc. Thesis, Gazi University, Institute of Science and Technology. Ankara Turkey.
  • Law of Energy Efficient. (2007). http://www.eie.gov.tr/verimlilik/document/EnVerKanunu_Mayis2011.pdf, 12.08.1016.
  • Ministry of Energy and Natural Resources MENR, (2001). General Energy Situation in Turkey. http://menr.gov.tr 21.07.2021.
  • Ministry of Energy and Natural Resources MENR, (2001). General Energy Situation in Turkey. Solar Energy Potential http://menr.gov.tr 18.07.2021
  • Özdoğan, H.P. (2005). Investigation of Photovoltaic Panels Used in Building Shells in Ecological Buildings. Unpublished M.Sc. Thesis, Yıldız Technique University, Institute of Science and Technology. Istanbul Turkey.
  • Öztürk, M. and Yüksel, Y.E. (2016). Energy Structure of Turkey for Sustainable Development. Renewable and Sustainable Energy Reviews, 53, pp. 1259-1272. https://www.sciencedirect.com/science/journal/13640321/5310.06.2021.
  • Philibert, C. (2005). The Present and Future Use of Solar Thermal Energy as A Primary Source of Energy, Inter Academy Council, p. 9. http://philibert.cedric.free.fr/Downloads/solarthermal.pdf, 27.06.2021.
  • Pamukkale University Clean Energy House, Pamukkale U. Clean Energy House http://tee.pau.edu.tr/photos.html, 15.09.2016.
  • Regulation of Energy Performance in Building. (2008). http://www.resmigazete.gov.tr/eskiler/2008/12/20081205-9.htm, 15.09.2018.
  • Sayın, S. (2006). The Significance of the Use of Renewable Energy in our Country’s Building Sector and the Opportunities of Utilizing of Solar Energy in Buildings. M.Sc. Thesis. Institute of Science and Technology. Selçuk University Konya Turkey.
  • Sugözü, İ. and Sarsılmaz C. (2006). Experimental Investigation of Indoor Heating with Air Solar Collector, Fırat University, Journal of Science and Engineering Sciences, Turkey.
  • Şık, A. (1994). In the Context of Heat Energy Evaluation of Urban Spaces Different Using Random Solar Energy. Unpublished M.Sc. Thesis. Gazi University Institute of Science and Technology. Ankara Turkey.
  • Tayfun Y. (2007). Examination of Effects of Indoor Heating Using Solar Energy with Passive System Sample of Istanbul. Unpublished M.Sc. Thesis. Yıldız Technique University, Institute of Science and Technology. Istanbul Turkey.
  • The Guesthouse and National Observatory of TUBITAK, https://tug.tubitak.gov.tr/en/kurumsal/about-us, 22.05.2021.
  • TUIK Population Growth Rate in Turkey, https://data.tuik.gov.tr/Kategori/GetKategori?p=Nufus-ve-Demografi-109, 10.06.2021
  • Turkish Standardization Institute Standard Number: TSE 825. (2008). Thermal insulation requirements for buildings. http://www1.mmo.org.tr/resimler/dosya_ekler/cf3e258fbdf3eb7_ek.pdf, 15.09.2016.
  • Uğurlu, A. and Gökçöl, C. (2017). An overview of Turkey's Renewable Energy Trend, Journal of Energy Systems. 1(4). Pp.148-158. 06.07.21.
  • Yılmaz, Ulu, E. (2010). Experimental and Theoretical Energy, Exergy and Electromagnetic Analysis of Solar-Hydrogen Hybrid Energy System. Ph. D. Pamukkale University Institute of Science and Technology. Turkey, p. 126

Türkiye’de Uygulanan Güneş Evlerinin Karşılaştırmalı Olarak Analizi

Year 2021, Issue: 31, 40 - 54, 31.12.2021
https://doi.org/10.31590/ejosat.980786

Abstract

Yapı sektörü enerji kaynaklarının önemli bir bölümünü geri dönüşü olmayacak biçimde tüketmekte ve çevreye zarar vermektedir. Kaynakların sınırlılığı ve ortaya çıkan çevre sorunları dünyada ve ülkemizde yeni enerji kaynaklarının araştırılmasını ve yapı sektöründe de yenilenebilir enerji kaynaklarının, çevreye duyarlı ve enerji etkin yapı tasarımlarının kullanılmasını zorunlu hale getirmiştir. Bu çerçevede temiz ve yenilenebilir enerji kaynaklarından olan güneş enerjisi ve yapıda güneş enerjisinin kullanımı konuları önem kazanmıştır. Türkiye sahip olduğu potansiyel güneş enerjisi açısından Avrupa ülkelerine kıyasla avantajlı konumda olmasına karşın, yapılarda güneş enerjisinden yeterince yararlanılmamakta ve yapılan çalışmalar akademik çalışmalarla sınırlı kalmaktadır. Türkiye’de yapıların ısıtma, soğutma, aydınlatma ve havalandırılmasında güneş enerjisinden aktif ve pasif yöntemlerle yararlanmak amacıyla gerçekleştirilen güneş evleri birbirinden farklı işlevlerle tasarlanmış tekil örneklerden oluşmaktadır. Bu çalışmanın amacı yenilenebilir enerji kaynakları kapsamında yapılarda güneş enerjisinin kullanımının önemini vurgulamak, Türkiye’de uygulanan güneş evlerini karşılaştırmalı olarak irdelemek ve güneş evi tasarımı için önerilerde bulunmaktır.

Project Number

-

References

  • Akdeniz, H. A. (1989). Economic Analysis of Alternative Decisions in Optimum Building Heating System Selection. Unpublished Ph. D. Ege University Institute of Solar Energy. Izmir Turkey.
  • Alparslan, B., Gültekin, A.B. and Dikmen, Ç.B. (2009). Ekolojik Yapı Tasarım Ölçütlerinin Türkiye’deki Güneş Evleri Kapsamında İncelenmesi, 5. Uluslararası İleri Teknolojiler Sempozyumu (IATS ’09), 13-15 Mayıs Karabük. http://iats09.karabuk.edu.tr/press/bildiriler_pdf/IATS09_08-99_982.pdf, 15.01.2021
  • Alparslan, B. (2010). Ekolojik Yapı Tasarım Ölçütleri Kapsamında Ankara’da Örnek Bir Yapı Tasarımı ve Değerlendirmesi, Yayımlanmamış Yüksek Lisans Tezi, Gazi Üniversitesi, Fen Bilimleri Enstitüsü, Ankara.
  • Altuntop, N. (1996). Erciyes University Solar House. Journal of Building. 177/8. pp. 43-45.
  • Altuntop, N. (2005). History of Solar Energy in Turkey, in the 50-Year History of the International Solar Energy Society and its National Sections, (Chapter), Böer, K.W., Eds., International Solar Energy Society Newyork, pp. 437-454.
  • Altuntop, N (2008). Investigation of Technical and Thermal Properties of Solar Houses in Turkey, New Energy, p. 6, Turkey.
  • Arsan Durmuş, Z. (2008) Sustainability Architecture in Turkey, Journal of Architecture. 340 http://www.mimarlikdergisi.com/index.cfm?sayfa=mimarlik&DergiSayi=290&RecID=1701 22.06.2021
  • Bekar, D. (2007). Analysis of Active Energy Systems in Ecological Architecture. Unpublished M.Sc. Thesis. Yıldız Technique University, Institute of Science and Technology. Istanbul Turkey.
  • Benli, H. (2016). Potential Application of Solar Water Heaters for Hot Water Production in Turkey, Renewable and Sustainable Energy Reviews, 54, p. 99-109. http://www.sciencedirect.com/science/article/pii/S136403211501031X, 08.05.2021.
  • Bozdoğan, B. (2003). Architectural Design and Ecology. Unpublished M.Sc. Thesis. Yıldız Technique University. Institute of Science and Technology. Istanbul Turkey. Çukurova University Solar House-UZAYMER, https://uzaymer.cu.edu.tr/, 14.02.2017
  • Delihasanlar, E., Yaylacı, E.K. and Dalcalı, A. (2019). Solar Energy Potential in the World and Turkey, Current Status, Incentives, Installation Cost Analysis-Karabuk Province Sample. Electronic Letters on Science & Engineering 15 (1) pp.12-20. https://dergipark.org.tr/tr/pub/else/issue/47861/590789, 15.06.2021.
  • Demirbilek, F.N., Yalçıner, U.G., Ecevit, A. Özgümüş, M. (1997a). METU Solar House, Proceedings of Solar’97, Sustainable Energy, 35th Annual Conference, Canberra: Australian and New Zealand Solar Energy Society pp. 1-5. http://eprints.qut.edu.au/4369/1/4369.pdf, 03.06.2021.
  • Demirbilek, F.N., Şahmalı, E. and İnanıcı M. (1997b). A Passively Climatized Building, 2500 m. above Sea Level, The Proceedings of Solar ‘97. Canberra: Australian and New Zealand Solar Energy Society.
  • Demirbilek, F.N., Yalçıner, U.G., Ecevit, A. Şahmalı, E. and İnanıcı M. (2003). Analysis of the Thermal Performance of a Building Design Located at 2465m: Antalya-Saklıkent National Observatory Guesthouse, Building and Environment. (38) pp.177-184
  • Demircan Kılıç, R. and Gültekin, A.B. (2017). Binalarda Pasif ve Aktif Güneş Sistemlerinin İncelenmesi, Turkish Science Research Foundation Journal of Tubav Science. 10 (1) pp. 36-51
  • Dikmen, Ç.B. and Gültekin, A.B. (2011). Usage of Renewable Energy Resources in Buildings in the Context of Sustainability, Journal of Engineering Science and Design, (1) 3, pp. 96-100. http://dergipark.ulakbim.gov.tr/sdumuhtas/article/view/1089001725, 05.07.2013.
  • Diyarbakır Solar House a, www.ekoyapidergisi.org, 05.02.2021.
  • Diyarbakır Solar House b, https://v3.arkitera.com/h30516-diyarbakira-gunes-evi.html, 15.06.2021.
  • Diyarbakır Solar House c, http://www.erengezgin.net/diyarbakir_fotolar.html, 22.01.2021.
  • Diyarbakır Solar House d https://www.google.com/search?sxsrf=ALeKk00JZnL6kAYJ-lCGvPnyJyJS1HVjpQ:1628332841961&source=univ&tbm=isch&q=%C3%A7elik+erengezgin+g%C3%BCne%C5%9F+evi&sa, 15.04.2021.
  • Ecevit, A. and Demirbilek, F.N. (1994). Solar Energy Studies in the Middle East Technical University, In Proceedings of the National Seminar on Turkish Solar Energy Activities and International Energy Agency Solar Heating and Cooling Programme Tasks, Ankara.
  • Energy Efficiency Training Facility http://ordem.com.tr/index.php/proje/elektrik-isleri-etut-idaresi-genel-mudurlugu-sahasi/, 22.01.2021.
  • Eskin, N. (2006). Solar Energy Research and Development in Turkey, Journal of Installation Engineering 91. pp. 74-82. Turkey. http://www.solar-academy.com/menuis/turkiye-de-gunes-enerjisi-arastirma-ve-gelistirme.032758.pdf, 12.07.2021
  • Google Images, Ege University Solar Energy Institute and Solar-Powered Drying House (2021). https://www.google.com/search?q=ege+g%C3%BCne%C5%9F+enerjisi+enstit%C3%BCs%C3%BC&sxsrf=ALeKk03ZNHuVXuyVJmjFz_1aQoAuqrKQhQ:1628264528895&source=lnms&tbm=, 24.05.2021
  • Göksu, Ç. (2008). Türkiye’deki İlk Sürdürülebilir Uygulama http://www.mimarizm.com/makale/turkiye-deki-ilk-surdurulebilir-uygulama-odtu-gunes-ev-projesi_113587, 12.08.2016.
  • Gültekin, A.B. and Alparslan, B. (2011). Ecological Building Design Criteria: A Case Study in Ankara, Gazi University Journal of Science 24(3), pp. 605-616, Turkey. http://dergipark.gov.tr/download/article-file/83396, 12.11.2016.
  • Hacettepe University Solar House a, http://www.yetam.hacettepe.edu.tr/, 05.02.2021.
  • Hacettepe University Solar House b http://www.yetam.hacettepe.edu.tr/icerik/basin_2.jpg 16.04.2021
  • Irklı, D. and Demirbilek, F.N. (2000). Architecture of the Anatolia Solar Energy, IIIth National Clean Energy Symposium, Symposium Book, V. 1, pp. 245-254. İstanbul. Istanbul Technique University Eco-building a, http://www.hasmimarlik.com.tr/projeler/proje_frame.html, 20.06.2021.
  • Istanbul Technique University Eco-building b, http://surdurulebilir-mimari.blogspot.com/2011/11/eko-yapi-projesi.html, 05.02.2021.
  • Kaygusuz, K. (2002), Environmental impacts of energy utilisation and renewable energy policies in Turkey Energy Policy 30 pp. 689–698 https://www.sciencedirect.com/science/article/abs/pii/S0301421502000320, 15.06.2021
  • Keçel, S. (2007). Development of a Model for Meeting the Household Electricity Need with Solar Panels in Various Regions of Turkey, Unpublished M.Sc. Thesis, Gazi University, Institute of Science and Technology. Ankara Turkey.
  • Law of Energy Efficient. (2007). http://www.eie.gov.tr/verimlilik/document/EnVerKanunu_Mayis2011.pdf, 12.08.1016.
  • Ministry of Energy and Natural Resources MENR, (2001). General Energy Situation in Turkey. http://menr.gov.tr 21.07.2021.
  • Ministry of Energy and Natural Resources MENR, (2001). General Energy Situation in Turkey. Solar Energy Potential http://menr.gov.tr 18.07.2021
  • Özdoğan, H.P. (2005). Investigation of Photovoltaic Panels Used in Building Shells in Ecological Buildings. Unpublished M.Sc. Thesis, Yıldız Technique University, Institute of Science and Technology. Istanbul Turkey.
  • Öztürk, M. and Yüksel, Y.E. (2016). Energy Structure of Turkey for Sustainable Development. Renewable and Sustainable Energy Reviews, 53, pp. 1259-1272. https://www.sciencedirect.com/science/journal/13640321/5310.06.2021.
  • Philibert, C. (2005). The Present and Future Use of Solar Thermal Energy as A Primary Source of Energy, Inter Academy Council, p. 9. http://philibert.cedric.free.fr/Downloads/solarthermal.pdf, 27.06.2021.
  • Pamukkale University Clean Energy House, Pamukkale U. Clean Energy House http://tee.pau.edu.tr/photos.html, 15.09.2016.
  • Regulation of Energy Performance in Building. (2008). http://www.resmigazete.gov.tr/eskiler/2008/12/20081205-9.htm, 15.09.2018.
  • Sayın, S. (2006). The Significance of the Use of Renewable Energy in our Country’s Building Sector and the Opportunities of Utilizing of Solar Energy in Buildings. M.Sc. Thesis. Institute of Science and Technology. Selçuk University Konya Turkey.
  • Sugözü, İ. and Sarsılmaz C. (2006). Experimental Investigation of Indoor Heating with Air Solar Collector, Fırat University, Journal of Science and Engineering Sciences, Turkey.
  • Şık, A. (1994). In the Context of Heat Energy Evaluation of Urban Spaces Different Using Random Solar Energy. Unpublished M.Sc. Thesis. Gazi University Institute of Science and Technology. Ankara Turkey.
  • Tayfun Y. (2007). Examination of Effects of Indoor Heating Using Solar Energy with Passive System Sample of Istanbul. Unpublished M.Sc. Thesis. Yıldız Technique University, Institute of Science and Technology. Istanbul Turkey.
  • The Guesthouse and National Observatory of TUBITAK, https://tug.tubitak.gov.tr/en/kurumsal/about-us, 22.05.2021.
  • TUIK Population Growth Rate in Turkey, https://data.tuik.gov.tr/Kategori/GetKategori?p=Nufus-ve-Demografi-109, 10.06.2021
  • Turkish Standardization Institute Standard Number: TSE 825. (2008). Thermal insulation requirements for buildings. http://www1.mmo.org.tr/resimler/dosya_ekler/cf3e258fbdf3eb7_ek.pdf, 15.09.2016.
  • Uğurlu, A. and Gökçöl, C. (2017). An overview of Turkey's Renewable Energy Trend, Journal of Energy Systems. 1(4). Pp.148-158. 06.07.21.
  • Yılmaz, Ulu, E. (2010). Experimental and Theoretical Energy, Exergy and Electromagnetic Analysis of Solar-Hydrogen Hybrid Energy System. Ph. D. Pamukkale University Institute of Science and Technology. Turkey, p. 126
There are 49 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Çiğdem Dikmen 0000-0001-5975-1552

Project Number -
Publication Date December 31, 2021
Published in Issue Year 2021 Issue: 31

Cite

APA Dikmen, Ç. (2021). Comparative Evaluation of Solar Houses Applied in Turkey. Avrupa Bilim Ve Teknoloji Dergisi(31), 40-54. https://doi.org/10.31590/ejosat.980786