References
- Babarinde, T. O., S. A. Akinlabi, and D. M. Madyira. 2019. “Experimental Investigation of R600a/TiO2/Mineral Oil as a Drop-in Replacement for R134a/POE Oil in a Household Refrigeration System.” International Journal of Ambient Energy. doi:https://doi.org/10.1080/01430750.2019.1653983.
- Bayrakci, H. C., and A. E. Ozgur. 2009. “Energy and Exergy Analysis of Vapor Compression Refrigeration System Using Pure Hydrocarbon Refrigerants.” International Journal of Energy Research, doi:https://doi.org/10.1002/er.1538.
- Bivens, D. B., C. C. Allgood, M. B. Shiflett, D. M. Patron, T. C. Chisolm, G. S. Shealy, A. Yokozeki, W. D. Wells, and K. A. Geiger. 1994. “HCFC-22 Alternative for Air Conditioners and Heat Pumps.” ASHRAE Transactions 100 (2): 566–572.
- Bolaji, B. O. 2010. “Experimental Study of R152a and R32 to Replace Replace R134a in a Domestic Refrigerator.” Energy 35 (9): 3793–3798. doi: https://doi.org/10.1016/j.energy.2010.05.031
- Bolaji, Bukola Olalekan, Zhongjie Huan, and Francis Olusesi Borokinni. 2014. “Energy Performance of Eco-friendly R152a and R600a Refrigerants as Alternative to R134a in Vapour Compression Refrigeration System.” ISSN 1453-7397.
- Bryson, M., C. Dixon, and S. StHill. May 2011. Testing of HFO-1234yf and R152a as Mobile Air Conditioning Refrigerant Replacements. AIRAH. Eco Librium, 30–38.
- Cerci, Y., Y. A. Cengel, and B Wood. 2000. “The Minimum Work Requirement for Distillation Processes.” In Twelfth International Symposium on Transport Phenomena (ISTP-12), 16–20. France: U.S. Department of EnergyOffice of Scientific and Technical Information.
- Del Col, D., M. Bortolato, M. Azzolin, and S. Bortolin. 2015. “Condensation Heat Transfer and two-Phase Frictional Pressure Drop in a Single Mini Channel with R1234ze (E) and Other Refrigerants.” International Journal of Refrigeration 50: 87–103. doi: https://doi.org/10.1016/j.ijrefrig.2014.10.022
- Domanski, P. A., and D. A. Didion. 1993. “Thermodynamic Evaluation of R22 Alternative Refrigerants and Refrigerant Mixtures.” ASHRAE Transactions 99 (2): 636–648.
- Domanski, P. A., D. A. Didion, and J. P. Doyle. 1994. “Evaluation of Suction-Line/Liquid-Line Heat Exchange in the Refrigeration Cycle.” International Journal of Refrigeration 17 (7): 487–493. doi: https://doi.org/10.1016/0140-7007(94)90010-8
- Gaurav, Raj Kumar. 2012. “Alternatives to R134a (CF3CH2F) Refrigerant- A Review.” YMCA University of Science & Technology, Faridabad, Haryana, October 19–20.
- Grauso, S., R. Mastrullo, A. W. Mauro, J. R. Thome, and G. P. Vanoli. 2013. “Flow Pattern Map, Heat Transfer and Pressure Drops During Evaporation of R-1234ze (E) and R134a in a Horizontal, Circular Smooth Tube: Experiments and Assessment of Predictive Methods.” International Journal of Refrigeration 36: 478–491. doi: https://doi.org/10.1016/j.ijrefrig.2012.07.016
- Kanoglu, M. 2002. “Exergy Analysis of the Multistage Cascade Refrigeration Cycle Used for Natural gas Liquefaction.” International Journal of Energy Research 26: 763–774. doi: https://doi.org/10.1002/er.814
- Karber, K. M., O. Abdelaziz, and E. A. Vineyard. 2012. “Experimental Performance of R1234yf and R1234ze as Drop-in Replacement for R134a in Domestic Refrigerators.” International refrigeration and Air conditioning conference at Purdue, July 16-19.
- Kaushik, S. C., and M. Singh. 1993. “Thermodynamic Evaluation of Throttling Loss in a Vapour Compression Refrigeration System with a Regenerative Heat Exchanger.” International Journal of Ambient Energy 14 (3): 155–166. doi:https://doi.org/10.1080/01430750.1993.9675609.
- Leck, Thomas J. 2010. “New High Performance, Low GWP Refrigerants for Stationary AC and Refrigeration.” International refrigeration and Air conditioning Conference at Purdue, July 12-15.
- Lee, H. S., and C. H. Son. 2010. “Condensation Heat Transfer and Pressure Drop Characteristics of R-290, R-600a, R134a and R-22 in Horizontal Tubes.” Heat and Mass Transfer 46: 571–584. doi: https://doi.org/10.1007/s00231-010-0603-9
- Leighton, D., Y. Hwang, and R. Radermacher. 2012. “Modeling of Household Refrigerator Performance with LGARs.” ASHRAE Winter Conference, Chicago.
- Meng, Z., H. Zhang, J. Qiu, and M. Lei. 2016. “Theoretical Analysis of R1234ze(E), R152 and R1234ze(E)/R152a Mixtures as Replacements of R134a in Vapor Compression System.” Advances in Mechanical Engineering 8 (11): 1687814016676945.
- Mohan raj, M., S. Jay raj, C. Muraleedharan, and P. Chandrasekhar. 2009. “Experimental Investigation of R290/R600a Mixture as an Alternative to R134a in a Domestic Refrigerator.” International Journal of Thermal Sciences 48: 1036–1042. doi: https://doi.org/10.1016/j.ijthermalsci.2008.08.001
- Mota-Babiloni, A., J. Navarro-Esbrí, A. Barragán, F. Molés, and B. Peris. 2014. “Drop-in Energy Performance Evaluation of R1234yf and R1234ze(E) in a Vapour Compression System as R134a Replacements.” Applied Thermal Engineering 71 (1): 259–265. 5 October. doi: https://doi.org/10.1016/j.applthermaleng.2014.06.056
- Rastil, Mehdi, SeyedFoad Aghamiri, and Mohammad-Sadegh Hatamipour. 2013. “Energy Efficiency Enhancement of a Domestic Refrigerator Using R436A and R600a as Alternative Refrigerants to R134a.” International Journal of Thermal Sciences 74: 86–94. doi: https://doi.org/10.1016/j.ijthermalsci.2013.07.009
- Sánchez, D., R. Cabello, R. Llopis, I. Arauzo, J. Catalán-Gil, and E. Torrella. 2017. “Energy Performance Evaluation of R1234yf, R1234ze(E), R600a, R290 and R152a as low-GWP R134a Alternatives.” International Journal of Refrigeration 74: 269–282. October. doi: https://doi.org/10.1016/j.ijrefrig.2016.09.020
- Shaik, M., and K. Srinivas. 2018. “Theoretical Analysis of a Low GWP Refrigerants as a Drop in Substitute of R134a in a Domestic Refrigerator.” Iranian (Iranica) Journal of Energy & Environment 9 (2): 130–136.
- Shapiro, D. 2012. “Drop-in Testing of Next-Generation R134a Alternates in a Commercial Bottle Cooler/Freezer.” International refrigeration and Air conditioning Conference at Purdue, July 16–19.
- Venkataramanamurthy, V. P., and Senthil Kumar. 2010. “Experimental Comparative Energy, Exergy Flow and Second Law Efficiency Analyses of R22, R436b Vapour Compression Refrigeration Cycles.” International Journal of Science and Technology 2 (5): 1399–1412.
- Yana Motta, S. F., E. D. Vera Becerra, and M. W. Spatz. 2010. Analysis of LGWP Alternatives for Small Refrigeration (Plugin) Applications. Purdue University, Purdue e-Pubs.
- Yumrutas, Recep, Mehmet Kunduz, and Mehmet Kanoglu. 2002. “Exergy Analysis of Vapor Compression Refrigeration Systems.” Exergy, an International Journal 2: 266–272. doi: https://doi.org/10.1016/S1164-0235(02)00079-1