Meeting the Electricity Need of a House with Solar Energy- Applying Solar PV to Heat Pump in İzmir House
Abstract
Solar energy is the most popular alternative energy resource application. Humanity has continued to search for different energy sources since its existence. While energy resources have been found to meet energy needs, they have also brought about environmental pollution. Solar energy is a solution to energy needs and does not cause environmental pollution. Solar collectors are needed to use solar energy. In this study, the design to meet the electricity needs of a house with solar energy has been made. In this study, a system that meets the electrical energy requirement of a house in İzmir, Turkey, with photovoltaic panels has been designed and examined. According to the results, panel prices are very high, and the manufacturers should reduce the initial installation cost. In this project, the heat requirement of a duplex house of 175 m2 is calculated. It is decided to use a heat pump to meet this thermal need. The electrical energy consumed by the duplex house's heat pump and other electronic appliances is calculated, and a system that generates electricity from solar energy is designed to meet this energy demand.
References
- Başaran, K. (2013). Bulanık Mantık Kontrollü Otonom ve Şebeke Bağlantılı Rüzgar-Güneş Hibrid Güç Sisteminin Optimizasyonu ve Adnan Menderes Üniversitesi Kampüs Alanında Uygulanması, PhD Thesis, Solar Energy Department, İzmir, 131 s. Başaran, K. & Börekçi, S. (2013). 150 kW Şebeke Bağlantılı Çatı Kurulumlu Fotovoltaik Sistem Fizibilitesi, 2. Solar Symposium, Antalya
- Chamber of Electrical Engineers of Turkey, Turkey Electrical Energy Statistics (CEET), (2022), Retrieved from (http://www.emo.org.tr/genel/bizden_detay.php?kod=88369#.WH1GRfmLTIU)
- Çolak, S. Ç. (2010). “Fotovoltaik Paneller Yardımı ile Güneş Enerjisinden Elektrik Enerjisi Üretiminin Maliyet Analizi ve Gelecekteki Projeksiyonu” Yıldız Technical University Graduate School of Natural and Applied Sciences, 2010
- Stauffer, Y., Koch, N., Hutter, A. & Pflugradt, N.D. (2018). Quantifying the Potential of Smart Heat-Pump Control to Increase the Self-Consumption of Photovoltaic Electricity in Buildings. Retrieved from: http://proceedings.ises.org/paper/eurosun2018/ eurosun2018-0158-Stauffer.pdf
- Güneş, N. & Karagöz, İ. (2017). Türkiye’de Güneş Enerjisi ve Bursa İli için Bir Uygulama, 13. National Plumbing Engineering Congress, 19-22 April 2017, İzmir
- Ministry of Foreign of the Republic of Turkey-Entrepreneur and Humanitarian Foreign Policy (MFRTEHFP), (2022). Retrieved from: https://www.mfa.gov.tr/turkiye_nin-enerji-stratejisi.tr.mfa
- Öztürk M. & Yuksel Y. E. (2016). Renewable and Sustainable Energy Reviews 53, 1259-1272, 2016.
- Simko, T., Luther, M. B., Li, H. X. & Horan, P. (2021). Applying Solar PV to Heat Pump and Storage. Technologies in Australian Houses Energies, 14(17), 5480.
- Taşova, M. (2018). Türkiye'nin Güneş Enerjisi Parametre Değerleri ve Güneş Enerjisinden Faydalanma Olanakları, Journal of Advanced Technology Sciences, 7(3), 10-17
- TR Ministry of Environment, Urbanization and Climate Change General Directorate of Meteorology -Solar Energy, (TR-MEUCCGDM). (2022). Retrieved from: https://www.ilbank.gov.tr/sayfa/solar-energy
- TR Ministry of Environment, Urbanization and Climate Change General Directorate of Meteorology (TR-MEUCCGDM). (2022). Retrieved from: https://mgm.gov.tr/kurumici/turkiye-guneslenme-suresi.aspx
- TR Ministry of Environment, Urbanization and Climate Change General Directorate of Meteorology (TR-MEUCCGDM). (2022).
- Retrieved from: https://www.mgm.gov.tr/veridegerlendirme/il-ve-ilceler-istatistik.aspx?m=IZMIR
- Turkish Standards Institution. (TS 825). (2008). Standard of Thermal Insulation Rules in Buildings, Ankara.
- Vaishak, S. & Bhale, P.V. (2019). Photovoltaic/thermal-Solar Assisted Heat Pump System: Current Status and Future Prospects, Sol. Energy 2019, 189, 268–284.
- Yıldırım, U. & Güngör, A. (2011). Yeşil Evler ve Türkiye’deki Uygulamaları. Chamber of Mechanical Engineers 5th Solar Energy Systems Symposium and Exhibition Proceedings, Publication no: E/2011/562, Ankara, s. 66-67.
Meeting the Electricity Need of a House with Solar Energy- Applying Solar PV to Heat Pump in İzmir House
Abstract
Solar energy is the most popular alternative energy resource application. Humanity has continued to search for different energy sources since its existence. While energy resources have been found to meet energy needs, they have also brought about environmental pollution. Solar energy is a solution to energy needs and does not cause environmental pollution. Solar collectors are needed to use solar energy. In this study, the design to meet the electricity needs of a house with solar energy has been made. In this study, a system that meets the electrical energy requirement of a house in İzmir, Turkey, with photovoltaic panels has been designed and examined. According to the results, panel prices are very high, and the manufacturers should reduce the initial installation cost. In this project, the heat requirement of a duplex house of 175 m2 is calculated. It is decided to use a heat pump to meet this thermal need. The electrical energy consumed by the duplex house's heat pump and other electronic appliances is calculated, and a system that generates electricity from solar energy is designed to meet this energy demand.
References
- Başaran, K. (2013). Bulanık Mantık Kontrollü Otonom ve Şebeke Bağlantılı Rüzgar-Güneş Hibrid Güç Sisteminin Optimizasyonu ve Adnan Menderes Üniversitesi Kampüs Alanında Uygulanması, PhD Thesis, Solar Energy Department, İzmir, 131 s. Başaran, K. & Börekçi, S. (2013). 150 kW Şebeke Bağlantılı Çatı Kurulumlu Fotovoltaik Sistem Fizibilitesi, 2. Solar Symposium, Antalya
- Chamber of Electrical Engineers of Turkey, Turkey Electrical Energy Statistics (CEET), (2022), Retrieved from (http://www.emo.org.tr/genel/bizden_detay.php?kod=88369#.WH1GRfmLTIU)
- Çolak, S. Ç. (2010). “Fotovoltaik Paneller Yardımı ile Güneş Enerjisinden Elektrik Enerjisi Üretiminin Maliyet Analizi ve Gelecekteki Projeksiyonu” Yıldız Technical University Graduate School of Natural and Applied Sciences, 2010
- Stauffer, Y., Koch, N., Hutter, A. & Pflugradt, N.D. (2018). Quantifying the Potential of Smart Heat-Pump Control to Increase the Self-Consumption of Photovoltaic Electricity in Buildings. Retrieved from: http://proceedings.ises.org/paper/eurosun2018/ eurosun2018-0158-Stauffer.pdf
- Güneş, N. & Karagöz, İ. (2017). Türkiye’de Güneş Enerjisi ve Bursa İli için Bir Uygulama, 13. National Plumbing Engineering Congress, 19-22 April 2017, İzmir
- Ministry of Foreign of the Republic of Turkey-Entrepreneur and Humanitarian Foreign Policy (MFRTEHFP), (2022). Retrieved from: https://www.mfa.gov.tr/turkiye_nin-enerji-stratejisi.tr.mfa
- Öztürk M. & Yuksel Y. E. (2016). Renewable and Sustainable Energy Reviews 53, 1259-1272, 2016.
- Simko, T., Luther, M. B., Li, H. X. & Horan, P. (2021). Applying Solar PV to Heat Pump and Storage. Technologies in Australian Houses Energies, 14(17), 5480.
- Taşova, M. (2018). Türkiye'nin Güneş Enerjisi Parametre Değerleri ve Güneş Enerjisinden Faydalanma Olanakları, Journal of Advanced Technology Sciences, 7(3), 10-17
- TR Ministry of Environment, Urbanization and Climate Change General Directorate of Meteorology -Solar Energy, (TR-MEUCCGDM). (2022). Retrieved from: https://www.ilbank.gov.tr/sayfa/solar-energy
- TR Ministry of Environment, Urbanization and Climate Change General Directorate of Meteorology (TR-MEUCCGDM). (2022). Retrieved from: https://mgm.gov.tr/kurumici/turkiye-guneslenme-suresi.aspx
- TR Ministry of Environment, Urbanization and Climate Change General Directorate of Meteorology (TR-MEUCCGDM). (2022).
- Retrieved from: https://www.mgm.gov.tr/veridegerlendirme/il-ve-ilceler-istatistik.aspx?m=IZMIR
- Turkish Standards Institution. (TS 825). (2008). Standard of Thermal Insulation Rules in Buildings, Ankara.
- Vaishak, S. & Bhale, P.V. (2019). Photovoltaic/thermal-Solar Assisted Heat Pump System: Current Status and Future Prospects, Sol. Energy 2019, 189, 268–284.
- Yıldırım, U. & Güngör, A. (2011). Yeşil Evler ve Türkiye’deki Uygulamaları. Chamber of Mechanical Engineers 5th Solar Energy Systems Symposium and Exhibition Proceedings, Publication no: E/2011/562, Ankara, s. 66-67.
Details
| Primary Language | English |
|---|---|
| Subjects | Mechanical Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | December 31, 2022 |
| Submission Date | December 9, 2022 |
| Published in Issue | Year 2022 Volume: 14 Issue: 3 |
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