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Year 2020, , 106 - 116, 06.01.2020
https://doi.org/10.18186/thermal.671652

Abstract

References

  • [1] G. Ehsan, H. Pedram, A. Pouria. Advance Exergy analysis of a Carbon Dioxide Ammonia Cascade Refrigeration Sytem. Applied Thermal Engineering 2018,DOI:https://doi.org/10.1016/j.applthermaleng.2018.03.055
  • [2] U. C. Rajmane. Cascade Refrigeration system: R404a-R23 Refrigerant. Asian Journal of Electrical Sciences, Vol. 6 (2017), pp. 18-22.
  • [3] F. A. Boyaghchi, S. Asgari. A comparative study on exergetic, exergoeconomic and exergoenvironmental assessments of two internal auto-cascade refrigeration cycles. Applied Thermal Engineering, 2017, pp. 723-737.
  • [4] J.S. Jadhav, A.D. Apte. Review of Cascade Refrigeration System With Different Refrigerant pairs. International Journal of Innovations in Engineering Research & Technology, vol. 2 (2015), issue-6
  • [5] A. Mate, P. Panhale, V. Shinde, P. Mane, C.L. Prabhune. Design and Development of Cascade Refrigeration System. International Research Journal of Engineering and Technology, vol. 4(2017), pp. 1889-1891.
  • [6] S. Ponsankar, C. Balasuthagar, A.S. Kumar, M.I. Ahmed, M.D.K. Kaman. Performance and Irreversibility analysis of two stage cascade refrigeration system for different refrigerant pairs. Journal of chemical and Pharmaceutical Sciences, vol. 10 (2017), pp. 371-375.
  • [7] Nasruddin, Arnas, A. Faqih, N Giannetti. Thermoconomic Optimization of Cascade Refrigeration System Using Mixed Carbon Dioxide and Hydrocarbon at Low Temperature Circuit. Makara Journal of Technology, Vol. 20(2016), pp. 132-138.
  • [8] A. H. N. Khalifa, A. J. Hamad, H. S. Abdulhussein. Experimental Study on Auto Cascade Refrigeration Cycle Using Mixed Refrigerants R410A/R134a. Journal of Multidisciplinary Engineering Science and Technology, Vol. 3 (2016), pp. 5637-5641. [9] R. Karaali. Thermodynamic Analysis of a Cascade Refrigeration System. International Conference on Computational and Experimental Science and Engineering, Vol. 130 (2016), pp. 101- 106. DOI: 10.12693/APhysPolA.130.101
  • [10] R Selbas. An Application for Refrigerant Selecting In the Cascade Refrigeration Systems. Journal of YEKARUM, 2015. DOI: Yıl2015/Cilt3/Sayı1
  • [11] S. H. Mohammadi, M. Ameri. Energy and exergy analysis of a two-stage cascade refrigeration system. Building Service Engineering & Research Technology,2015. DOI:10.1177/0143624415615327.
  • [12] K.S. Rawat, R. Kshetri, H. Khulve, A.K. Pratihar. Parametric Study of R744- R717 Cascade Refrigeration System. International Journal For Research In Emerging Science And Technology, Vol. 2 (2015), pp. 101-106.
  • [13] S.S. Seyitoglu, A. Kilicarslan. Second Law Analysis Of Different Refrigerants In A Two Stage Vapor Compression Cycle. Journal of Thermal Science and Technology, Vol. 2 (2015), pp. 89-97. [14] A.D. Parekh, P.R. Tailor. Thermodynamic Analysis of Cascade Refrigeration System Using R12-R13, R290-R23 and R404A-R23. World Academy of Science, Engineering and Technology, International Journal of Mechanical and Mechatronics Engineering, Vol. 8 (2014), pp. 1351-1356.
  • [15] Y. Ust, A.S. Karakurt. Analysis of a Cascade Refrigeration System (CRS) by Using Different Refrigerant Couples Based on the Exergetic Performance Coefficient (EPC) Criterion. Arab Journal of Science & Engineering,2014,DOI 10.1007/s13369-014-1335-9.
  • [16] S. Tripathi, J. Jena, D.K. Padhiary, M.K. Roul. Thermodynamic Analysis of a Cascade Refrigeration System Based On Carbon Dioxide and Ammonia. International Journal of Engineering Research and Applications, Vol. 4 (2014), pp. 24-29.
  • [17] S.M.H. Mohammadi, M. Ameri, Energy and Exergy Comparison of a Cascade Air Conditioning System Using Different Cooling Strategies, International Journal of Refrigeration (2013), doi: 10.1016/j.ijrefrig.2013.06.015.
  • [18] P. Mumanachit, D.T. Reindl, G.F. Nellis. Comparative Analysis Of Low Temperature Industrial Refrigeration Systems. International Journal Of Refrigeration, Vol. 35 ( 2 0 1 2 ) pp. 1208-1221.
  • [19] B. Kilic, O. Ipek, S. Uguz. Evaluating On Exergy Analysis Of Refrigeration System With Two-Stage And Economiser. International Journal of Engineering & Applied Sciences, Vol. 4 (2012), pp. 15-25.
  • [20] A. Messineo. R744-R717 Cascade Refrigeration System: Performance Evaluation Compared With A HFC Two-Stage System. Energy Procedia 14 (2012), pp. 56-65.
  • [21] M.I. Alhamid, D.R.B. Syaka, Nasruddin. Exergy and Energy Analysis of a Cascade Refrigeration System Using R744+R170 for Low Temperature Applications. International Journal of Mechanical & Mechatronics Engineering, Vol. 10 (2010), pp. 1-8.
  • [22] M.B. Krikhan. Structures and Properties of Water. Principle of soil and plant water relations, Vol. 2 (2014), pp. 27-40.
  • [23] C. Kondou, F. Mishima, J. Liu, S. Koyama. Condensation and Evaporation of R134a, R1234ze(E) and R1234ze(Z) Flow in Horizontal Microfin Tubes at Higher Temperatures. International Refrigeration and Air Conditioning Conference , 2014, pp. 1446. DOI: http://docs.lib.purdue.edu/iracc/1446

COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS

Year 2020, , 106 - 116, 06.01.2020
https://doi.org/10.18186/thermal.671652

Abstract

In this study a comparative analysis on the basis of energy and exergy of cascade refrigeration system using different refrigerant pair, R13 for low temperature cycle (LTC) and R134a, R290 and R717 for high temperature cycle (HTC) has been done by mathematical simulation using Engineering Equation Solver (EES-V9.224-3D). The analysis of cascade refrigeration system has been carried out at different operating condition and result has been compared with effect of various operating parameters. The range of evaporator temperature of LTC is taken from -53oC to -70oC, which represents the most common operating condition in commercial applications. The range of condenser temperature of LTC is from -11oC to -2oC and evaporator temperature of HTC from -19oC to -10oC. Results show that the refrigerant pair R13-R717 is the best suitable refrigerant pair for proposed cascade refrigeration system in comparison to other used refrigerant pairs and R717 can be a interesting alternative refrigerant to R134a and R290 for high temperature cycle of cascade refrigeration system in commercial applications.

References

  • [1] G. Ehsan, H. Pedram, A. Pouria. Advance Exergy analysis of a Carbon Dioxide Ammonia Cascade Refrigeration Sytem. Applied Thermal Engineering 2018,DOI:https://doi.org/10.1016/j.applthermaleng.2018.03.055
  • [2] U. C. Rajmane. Cascade Refrigeration system: R404a-R23 Refrigerant. Asian Journal of Electrical Sciences, Vol. 6 (2017), pp. 18-22.
  • [3] F. A. Boyaghchi, S. Asgari. A comparative study on exergetic, exergoeconomic and exergoenvironmental assessments of two internal auto-cascade refrigeration cycles. Applied Thermal Engineering, 2017, pp. 723-737.
  • [4] J.S. Jadhav, A.D. Apte. Review of Cascade Refrigeration System With Different Refrigerant pairs. International Journal of Innovations in Engineering Research & Technology, vol. 2 (2015), issue-6
  • [5] A. Mate, P. Panhale, V. Shinde, P. Mane, C.L. Prabhune. Design and Development of Cascade Refrigeration System. International Research Journal of Engineering and Technology, vol. 4(2017), pp. 1889-1891.
  • [6] S. Ponsankar, C. Balasuthagar, A.S. Kumar, M.I. Ahmed, M.D.K. Kaman. Performance and Irreversibility analysis of two stage cascade refrigeration system for different refrigerant pairs. Journal of chemical and Pharmaceutical Sciences, vol. 10 (2017), pp. 371-375.
  • [7] Nasruddin, Arnas, A. Faqih, N Giannetti. Thermoconomic Optimization of Cascade Refrigeration System Using Mixed Carbon Dioxide and Hydrocarbon at Low Temperature Circuit. Makara Journal of Technology, Vol. 20(2016), pp. 132-138.
  • [8] A. H. N. Khalifa, A. J. Hamad, H. S. Abdulhussein. Experimental Study on Auto Cascade Refrigeration Cycle Using Mixed Refrigerants R410A/R134a. Journal of Multidisciplinary Engineering Science and Technology, Vol. 3 (2016), pp. 5637-5641. [9] R. Karaali. Thermodynamic Analysis of a Cascade Refrigeration System. International Conference on Computational and Experimental Science and Engineering, Vol. 130 (2016), pp. 101- 106. DOI: 10.12693/APhysPolA.130.101
  • [10] R Selbas. An Application for Refrigerant Selecting In the Cascade Refrigeration Systems. Journal of YEKARUM, 2015. DOI: Yıl2015/Cilt3/Sayı1
  • [11] S. H. Mohammadi, M. Ameri. Energy and exergy analysis of a two-stage cascade refrigeration system. Building Service Engineering & Research Technology,2015. DOI:10.1177/0143624415615327.
  • [12] K.S. Rawat, R. Kshetri, H. Khulve, A.K. Pratihar. Parametric Study of R744- R717 Cascade Refrigeration System. International Journal For Research In Emerging Science And Technology, Vol. 2 (2015), pp. 101-106.
  • [13] S.S. Seyitoglu, A. Kilicarslan. Second Law Analysis Of Different Refrigerants In A Two Stage Vapor Compression Cycle. Journal of Thermal Science and Technology, Vol. 2 (2015), pp. 89-97. [14] A.D. Parekh, P.R. Tailor. Thermodynamic Analysis of Cascade Refrigeration System Using R12-R13, R290-R23 and R404A-R23. World Academy of Science, Engineering and Technology, International Journal of Mechanical and Mechatronics Engineering, Vol. 8 (2014), pp. 1351-1356.
  • [15] Y. Ust, A.S. Karakurt. Analysis of a Cascade Refrigeration System (CRS) by Using Different Refrigerant Couples Based on the Exergetic Performance Coefficient (EPC) Criterion. Arab Journal of Science & Engineering,2014,DOI 10.1007/s13369-014-1335-9.
  • [16] S. Tripathi, J. Jena, D.K. Padhiary, M.K. Roul. Thermodynamic Analysis of a Cascade Refrigeration System Based On Carbon Dioxide and Ammonia. International Journal of Engineering Research and Applications, Vol. 4 (2014), pp. 24-29.
  • [17] S.M.H. Mohammadi, M. Ameri, Energy and Exergy Comparison of a Cascade Air Conditioning System Using Different Cooling Strategies, International Journal of Refrigeration (2013), doi: 10.1016/j.ijrefrig.2013.06.015.
  • [18] P. Mumanachit, D.T. Reindl, G.F. Nellis. Comparative Analysis Of Low Temperature Industrial Refrigeration Systems. International Journal Of Refrigeration, Vol. 35 ( 2 0 1 2 ) pp. 1208-1221.
  • [19] B. Kilic, O. Ipek, S. Uguz. Evaluating On Exergy Analysis Of Refrigeration System With Two-Stage And Economiser. International Journal of Engineering & Applied Sciences, Vol. 4 (2012), pp. 15-25.
  • [20] A. Messineo. R744-R717 Cascade Refrigeration System: Performance Evaluation Compared With A HFC Two-Stage System. Energy Procedia 14 (2012), pp. 56-65.
  • [21] M.I. Alhamid, D.R.B. Syaka, Nasruddin. Exergy and Energy Analysis of a Cascade Refrigeration System Using R744+R170 for Low Temperature Applications. International Journal of Mechanical & Mechatronics Engineering, Vol. 10 (2010), pp. 1-8.
  • [22] M.B. Krikhan. Structures and Properties of Water. Principle of soil and plant water relations, Vol. 2 (2014), pp. 27-40.
  • [23] C. Kondou, F. Mishima, J. Liu, S. Koyama. Condensation and Evaporation of R134a, R1234ze(E) and R1234ze(Z) Flow in Horizontal Microfin Tubes at Higher Temperatures. International Refrigeration and Air Conditioning Conference , 2014, pp. 1446. DOI: http://docs.lib.purdue.edu/iracc/1446
There are 21 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Vipin Kumar This is me 0000-0003-4530-019X

Publication Date January 6, 2020
Submission Date March 6, 2019
Published in Issue Year 2020

Cite

APA Kumar, V. (2020). COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS. Journal of Thermal Engineering, 6(1), 106-116. https://doi.org/10.18186/thermal.671652
AMA Kumar V. COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS. Journal of Thermal Engineering. January 2020;6(1):106-116. doi:10.18186/thermal.671652
Chicago Kumar, Vipin. “COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS”. Journal of Thermal Engineering 6, no. 1 (January 2020): 106-16. https://doi.org/10.18186/thermal.671652.
EndNote Kumar V (January 1, 2020) COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS. Journal of Thermal Engineering 6 1 106–116.
IEEE V. Kumar, “COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS”, Journal of Thermal Engineering, vol. 6, no. 1, pp. 106–116, 2020, doi: 10.18186/thermal.671652.
ISNAD Kumar, Vipin. “COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS”. Journal of Thermal Engineering 6/1 (January 2020), 106-116. https://doi.org/10.18186/thermal.671652.
JAMA Kumar V. COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS. Journal of Thermal Engineering. 2020;6:106–116.
MLA Kumar, Vipin. “COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS”. Journal of Thermal Engineering, vol. 6, no. 1, 2020, pp. 106-1, doi:10.18186/thermal.671652.
Vancouver Kumar V. COMPARATIVE ANALYSIS OF CASCADE REFRIGERATION SYSTEM BASED ON ENERGY AND EXERGY USING DIFFERENT REFRIGERANT PAIRS. Journal of Thermal Engineering. 2020;6(1):106-1.

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