Year 2016,
Volume: 31 Issue: 4, 0 - 0, 14.12.2016
Abstract
Bu çalışmada, iki buharlaştırıcılı buhar sıkıştırmalı klasik soğutma sisteminin ve bu sistemin ejektörlü hale getirilmesi ile oluşturulan yeni sistemin termodinamik analizi enerji ve momentum denklemleri kullanılarak yapılmıştır. Çalışmada soğutucu akışkan olarak R134a ve bu soğutucu akışkana alternatif olarak geliştirilen R1234yf kullanılmıştır. Farklı yoğuşturucu ve buharlaştırıcı sıcaklıklarında ejektörlü soğutma sistemi etkinliğinin iki buharlaştırıcılı soğutma sistemi etkinliğine göre artışı analiz edilmiştir. Ayrıca her bir sistemin ekserji analizi yapılmış olup sonuçlar grafikler halinde verilmiştir. Yapılan analizlerde ejektörlü soğutma sisteminde elde edilen soğutma etkinliğinin, iki buharlaştırıcılı sistemin soğutma etkinliğinden R134a için %15 ve R1234yf için ise %17 civarında daha fazla olduğu görülmüştür.
References
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Year 2016,
Volume: 31 Issue: 4, 0 - 0, 14.12.2016
Abstract
References
- . Bolaji BO., Huan Z., “Ozone depletion and global warming: case for the use of natural refrigerant”, Renew Sust Energy Rev, 43:915-921, 2013.
- . Park KJ., Seo T., Jung D., “Performance of alternative refrigerants for residential air-conditioning applications.” Applied Energy, 84:985-991, 2007.
- . Esen, D. Ö., Hoşöz, M., “R12 ve R134a Soğutucu Akışkanları Kullanan Otomobil İklimlendirme Sisteminin Deneysel Performans Analizi”, Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, Cilt 21, No 4, 703–709, 2006.
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- . Minor B., Spatz M., “HFO-1234yf low GWP refrigerant update.” International refrigeration and air conditioning conference.” Paper 937, 2008.
- . Zilio C., Brown JS., Schiochet G., Cavallini A., “The refrigerant R1234yf in air conditioning systems.” Energy, 36:6110-620, 2011.
- . Jarall S., “Study of refrigeration system with HFO-1234yf as a working fluid.”, Int J Refrig 35:1668-1677, 2012.
- . Özgür AE., Kabul A., Kizilkan Ö., “Exergy analysis of refrigeration systems using an alternative refrigerant(hfo-1234yf) to R134a.” Int J Low- Carbon Tech. 2012.
- . Col DD., Torresin D., Cavallini A.,“Heat transfer and pressure drop during condensation of the low GWP refrigerant R1234yf.” Int. J Refrig 33:1307-1318, 2010.
- . Kornhauser AA., “The use of an ejector as a refrigerant expander.” International Refrigeration and Air-conditioning Conference, 82:10-19, 1990.
- . Disawas S., Wongwises S., “Experimental investigation on the performance of the refrigeration cycle using a two-phase ejector as an expansion device.” International Journal of Refrigeration, 27:587-594, 2004.
- . Wongwises S., Disawas S., “Performance of the two-phase ejector expansion refrigeration cycle.” International Journal of Heat and Mass Transfer, 48:4282-4286, 2005.
- . Zhou M., Wang X., Yu J., “Theoretical study on a novel dual-nozzle ejector enhanced refrigeration cycle for household refrigerator-freezers.” Energy Conversion and Management, 73:278-284, 2013.
- . Lawrence N., Elbel S., “Experimental investigation of a two-phase ejector cycle suitable for use with low-pressure refrigerants R134a and R1234yf.” International Journal of Refrigeration, 38:310-322, 2014.
- . Yari M. “Exergetic analysis of the vapor compression refrigeration cycle using ejector as an expander.” International Journal Exergy 5: 326–40, 2008.
- . Bilir Sağ N., Ersoy H.K., Hepbaşlı A., Halkacı H.S. Energetic and exergetic comparison of basic and ejector expander refrigeration systems operating under the same external conditions and cooling capacities. Energy Conversion and Management, 90:184-194, 2015.
- . Ünal Ş., Yılmaz T., “Thermodynamic analysis of the two-phase ejector air-conditioning system for buses.” Applied Thermal Engineering, 79:108-116, 2015.
There are 18 citations in total.
Details
| Journal Section | Makaleler |
|---|---|
| Authors | |
| Publication Date | December 14, 2016 |
| Submission Date | October 16, 2015 |
| Published in Issue | Year 2016 Volume: 31 Issue: 4 |