INVESTIGATION OF SOLAR ASSISTED HEAT PUMPS’ PERFORMANCE IN DIFFERENT CAPACITY

Gulsah Karaca; Tolga Ural; Ali Kecebas

Araştırma Makalesi

INVESTIGATION OF SOLAR ASSISTED HEAT PUMPS’ PERFORMANCE IN DIFFERENT CAPACITY

Yıl 2017, Sayı: 1, 236 - 245, 09.11.2017

Gulsah Karaca Tolga Ural Ali Kecebas

Öz

Interest in
renewable energy sources is growing when economic values such as air pollution,
climate change and external dependency on the environment are considered in the
process of depletion of fossil fuels. Despite of energy supply security
ensuring thanks to availability of renewable energy resources, they can not
respond instantly. Therefore they are used together with non-polluting or
electricity sources such as electricity. In this study, the number of planar
solar collectors was changed between 2 and 10, and the coverage ratio of the
solar energy in the heating system, coefficient of the performance and the
performance factor of the system were examined via POLYSUN simulation program.

Anahtar Kelimeler

Air source heat pump, planar solar collector, COP, SPF

Kaynakça

Abou-Ziyan, H.Z., Ahmed, M.F., Metwally, M.N. ve Abd El-Hamed, H.M. (1997). Solar-assisted R22 and R134a heat pump systems for low-temperature applications, Applied Thermal Engineering, 17 (5), 455-469. Açıkgöz Ö. (2007). Bir Birleşik Enerji Sisteminde Güneş Enerjisi Desteğinin Araştırılması, Yüksek Lisans, Yıldız Teknik Üniversitesi, İstanbul, 103s. Aguiar, R.J., Collares-Pereira M. & Conde, J.P. (1988). Simple procedure for generating sequences of daily radiation values using a library of Markov transition matrices, Solar Energy, 40(3), 269-279. Bornatico, R., Pfeiffer, M., Witzig A. & Guzzella, L. (2012). Optimal sizing of a solar thermal building installation using particle swarm optimization, Energy, 41, 31-37. Ceylan, T. (2010). İki Katlı Bir Binanın Güneş Enerjisi Destekli Hava Kaynaklı Isı Pompasıyla Isıtılması ve Sıcak Su Eldesinin Analizi, Yüksek Lisans, Gazi Üniversitesi, Ankara, 116s. Çağlar, A. (2006). Theoretical and Experimental Performance Analysis of A Solar Assisted Heat Pump, Yüksek Lisans, Middle East Technical University, Ankara, 109s. Georgiev, A. (2008). Testing solar collectors as an energy source for a heat pump, Renewable Energy, 33, 832-838. Ghafoor, A. & Fracastoro, G.V. (2015). Cost-effectiveness of multi-purpose solar thermal systems and comparison with PV-based heat pumps, Solar Energy, 113, 272-280. Gündüz, A.B. (2007). Bilecik İlinde Güneş Enerjisi Destekli Isı Pompasıyla Sıcak Su Üretiminin Performansı, Yüksek Lisans, Eskişehir Osmangazi Üniversitesi, Eskişehir, 123s. Meteotest, (2000). Meteonorm database. Bern, Switzerland: Meteotest. Polysun, Simulation Software, User Manual, 2017 Vela Solaris AG, www.velasolaris.com. Witzig, A., Stöckli, U., Kistler, P., Bornatico R. & Pfeiffer, M. (2010). Polysun Inside: A Universal Platform for Commercial Software and Research Applications, Published in the Proceedings of EuroSun 2010, International Conference on Solar Heating, Cooling and Buildings, Austria

Yıl 2017, Sayı: 1, 236 - 245, 09.11.2017

Gulsah Karaca Tolga Ural Ali Kecebas

Öz

Kaynakça

Abou-Ziyan, H.Z., Ahmed, M.F., Metwally, M.N. ve Abd El-Hamed, H.M. (1997). Solar-assisted R22 and R134a heat pump systems for low-temperature applications, Applied Thermal Engineering, 17 (5), 455-469. Açıkgöz Ö. (2007). Bir Birleşik Enerji Sisteminde Güneş Enerjisi Desteğinin Araştırılması, Yüksek Lisans, Yıldız Teknik Üniversitesi, İstanbul, 103s. Aguiar, R.J., Collares-Pereira M. & Conde, J.P. (1988). Simple procedure for generating sequences of daily radiation values using a library of Markov transition matrices, Solar Energy, 40(3), 269-279. Bornatico, R., Pfeiffer, M., Witzig A. & Guzzella, L. (2012). Optimal sizing of a solar thermal building installation using particle swarm optimization, Energy, 41, 31-37. Ceylan, T. (2010). İki Katlı Bir Binanın Güneş Enerjisi Destekli Hava Kaynaklı Isı Pompasıyla Isıtılması ve Sıcak Su Eldesinin Analizi, Yüksek Lisans, Gazi Üniversitesi, Ankara, 116s. Çağlar, A. (2006). Theoretical and Experimental Performance Analysis of A Solar Assisted Heat Pump, Yüksek Lisans, Middle East Technical University, Ankara, 109s. Georgiev, A. (2008). Testing solar collectors as an energy source for a heat pump, Renewable Energy, 33, 832-838. Ghafoor, A. & Fracastoro, G.V. (2015). Cost-effectiveness of multi-purpose solar thermal systems and comparison with PV-based heat pumps, Solar Energy, 113, 272-280. Gündüz, A.B. (2007). Bilecik İlinde Güneş Enerjisi Destekli Isı Pompasıyla Sıcak Su Üretiminin Performansı, Yüksek Lisans, Eskişehir Osmangazi Üniversitesi, Eskişehir, 123s. Meteotest, (2000). Meteonorm database. Bern, Switzerland: Meteotest. Polysun, Simulation Software, User Manual, 2017 Vela Solaris AG, www.velasolaris.com. Witzig, A., Stöckli, U., Kistler, P., Bornatico R. & Pfeiffer, M. (2010). Polysun Inside: A Universal Platform for Commercial Software and Research Applications, Published in the Proceedings of EuroSun 2010, International Conference on Solar Heating, Cooling and Buildings, Austria

Toplam 1 adet kaynakça vardır.

Ayrıntılar

Konular	Mühendislik
Bölüm	Makaleler
Yazarlar	Gulsah Karaca Tolga Ural Ali Kecebas
Yayımlanma Tarihi	9 Kasım 2017
Yayımlandığı Sayı	Yıl 2017Sayı: 1

Kaynak Göster

APA	Karaca, G., Ural, T., & Kecebas, A. (2017). INVESTIGATION OF SOLAR ASSISTED HEAT PUMPS’ PERFORMANCE IN DIFFERENT CAPACITY. The Eurasia Proceedings of Science Technology Engineering and Mathematics(1), 236-245.