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Heat Transfer Research
Regional Editor (China/Asia): Ya-Ling He (open in a new tab)
Regional Editor (Europe): Bengt Sunden (open in a new tab)
Regional Editor (USA): Xinwei Wang (open in a new tab)

年間 18 号発行

ISSN 印刷: 1064-2285

ISSN オンライン: 2162-6561

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ENERGY, EXERGY, AND ENVIRONMENTAL (3E) ASSESSMENTS OF VARIOUS REFRIGERANTS IN THE REFRIGERATION SYSTEMS WITH INTERNAL HEAT EXCHANGER

巻 51, 発行 11, 2020, pp. 1029-1041
DOI: 10.1615/HeatTransRes.2020033716
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Ali Etem Gürel
Department of Mechanical Engineering, Faculty of Technology, Düzce University, Düzce, Turkey
Ümit Ağbulut
Düzce University
Alper Ergün
Department of Energy Systems Engineering, Faculty of Technology, Karabük University, Karabük, Turkey
Gökhan Yildiz
Department of Mechanical Engineering, Graduate School of Natural and Applied Sciences, Düzce University, Düzce, Turkey

要約

A comprehensive thermodynamic analysis of a refrigeration system with an internal heat exchanger was reported for four various refrigerants as an alternative to R134a. The preferred refrigerants in this paper have zero ozone-depleting potential and fairly low global warming potential value compared with reference R134a. These refrigerants are from both the HC group (R290 and R600a) and the HFO group (R1234yf and R1234ze(E)). Basically, the refrigeration system consists of a compressor, condenser, evaporator, expansion valve, and internal heat exchanger as well. Energy-exergy analyses and environmental impact assessments depending on the compressor energy consumptions are evaluated in the current study. The system performance was theoretically carried out at two different evaporation temperatures of 0 and -8°C. Based on the obtained results from this study, the highest performance was achieved in R600a from HC group refrigerants and R1234ze(E) from HFO group refrigerants. As compared with R134a, in the COP value of R600a an increase of 3.2% at the evaporation temperature of 0°C and 3.4% for the evaporation temperature of -8°C was achieved. On the other hand, the COP value for R1234yf was decreased by 2% at the evaporation temperature of 0°C and by 2.57% at the evaporation temperature of -8°C. Considering the CO2 emissions, R600a was located at the first order in terms of the lowest CO2 emissions and R1234ze(E) follows R600a. In conclusion, R600a presented the highest performance compared with R134a in a refrigeration system with an internal heat exchanger.

キーワード: refrigeration, energy and exergy analysis, environmental assessment, energy consumption, CO2
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によって引用された

  1. Yıldız Gökhan, Çalış Büşra, Gürel Ali Etem, Ceylan İlhan, Investigation of life cycle CO2 emissions of the polycrystalline and cadmium telluride PV panels, Environmental Nanotechnology, Monitoring & Management, 14, 2020. Crossref

  2. Katircioğlu Ferzan, Cingiz Zafer, Çay Yusuf, Gürel Ali Etem, Kolip Ahmet, Performance Assessment of a Refrigeration System Charged with Different Refrigerants Using Infrared Image Processing Techniques, Arabian Journal for Science and Engineering, 46, 12, 2021. Crossref

  3. Yıldız Gökhan, Ağbulut Ümit, Gürel Ali Etem, A review of stability, thermophysical properties and impact of using nanofluids on the performance of refrigeration systems, International Journal of Refrigeration, 129, 2021. Crossref

  4. Wu Hongliang, Peng Daoxin, Wang Ling, Model for sustainable development based on system dynamics and energy–economy–environment coordination: A case study of Beijing, China, Energy Science & Engineering, 9, 6, 2021. Crossref

  5. Gürel Ali Etem, Yıldız Gökhan, Ergün Alper, Ceylan İlhan, Exergetic, economic and environmental analysis of temperature controlled solar air heater system, Cleaner Engineering and Technology, 6, 2022. Crossref

  6. Shen Bo, Nawaz Kashif, Elatar Ahmed, Parametric studies of heat pump water heater using low GWP refrigerants, International Journal of Refrigeration, 131, 2021. Crossref

  7. Gürel Ali Etem, Ağbulut Ümit, Ergün Alper, Ceylan İlhan, Sözen Adnan, Tuncer Azim Doğuş, Khanlari Ataollah, A detailed investigation of the temperature-controlled fluidized bed solar dryer: A numerical, experimental, and modeling study, Sustainable Energy Technologies and Assessments, 49, 2022. Crossref

  8. Yıldız Gökhan, Ağbulut Ümit, Gürel Ali Etem, Ergün Alper, Afzal Asif, Saleel C. Ahamed, Energetic, exergetic, and thermoeconomic analyses of different nanoparticles-added lubricants in a heat pump water heater, Case Studies in Thermal Engineering, 33, 2022. Crossref

  9. Kaya A. M., Examination of the performance effects of refrigerants in a multistage refrigeration cycle using advanced exergy analysis, International Journal of Environmental Science and Technology, 19, 7, 2022. Crossref

  10. Ustaoglu Abid, Kursuncu Bilal, Metin Kaya Alaattin, Caliskan Hakan, Analysis of vapor compression refrigeration cycle using advanced exergetic approach with Taguchi and ANOVA optimization and refrigerant selection with enviroeconomic concerns by TOPSIS analysis, Sustainable Energy Technologies and Assessments, 52, 2022. Crossref

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