International Journal of Mechanical and Production Engineering (IJMPE)
.
current issues
Volume-7,Issue-12  ( Dec, 2019 )
Past issues
  1. Volume-7,Issue-11  ( Nov, 2019 )
  2. Volume-7,Issue-10  ( Oct, 2019 )
  3. Volume-7,Issue-9  ( Sep, 2019 )
  4. Volume-7,Issue-8  ( Aug, 2019 )
  5. Volume-7,Issue-7  ( Jul, 2019 )
  6. Volume-7,Issue-6  ( Jun, 2019 )
  7. Volume-7,Issue-5  ( May, 2019 )
  8. Volume-7,Issue-4  ( Apr, 2019 )
  9. Volume-7,Issue-3  ( Mar, 2019 )
  10. Volume-7,Issue-2  ( Feb, 2019 )

Statistics report
Feb. 2020
Submitted Papers : 80
Accepted Papers : 10
Rejected Papers : 70
Acc. Perc : 12%
Issue Published : 81
Paper Published : 1975
No. of Authors : 5641
  Journal Paper


Paper Title :
Experimental Analysis of Vapour Compression Refrigeration System using Nanorefrigerant

Author :Vaishali P. Mohod, Nishikant W. Kale

Article Citation :Vaishali P. Mohod ,Nishikant W. Kale , (2017 ) " Experimental Analysis of Vapour Compression Refrigeration System using Nanorefrigerant " , International Journal of Mechanical and Production Engineering (IJMPE) , pp. 71-75, Volume-5,Issue-3

Abstract : Aiming to improve the characteristics of the traditional refrigerants, nanofluid is a new invention to enable vapor compression systems to take advantage of nanoparticles. Recent studies shows that use of nanoparticles in refrigeration systems leads to remarkable improvement in thermophysical properties and heat transfer capabilities, thus enhances the efficiency and reliability of refrigeration and air conditioning system. Refrigerant based nanofluids are termed as nanorefrigerants. They have the potential to enhance the heat transfer performances of refrigeration and air-conditioning systems. The present work deals with the investigation on a vapour compression refrigeration system with pure R134a and R134a with different nanoparticles concentration added to it. Stable nanolubricant has been prepared with VG68 polyolester oil for the study. Three different mass concentration 0.04%, 0.06% and 0.08% of Al2O3 nanoparticles with 20 nm. size has been used. The system performance was investigated using energy consumption test and freeze capacity test. The results indicate that refrigeration system with nanorefrigerant works normally and safely. It is found that the freezing capacity is higher and power consumption reduces by 14.71% and the coefficient of performance increases by 28.93%, when Al2O3 nanolubricant is used with 0.06% mass fraction giving optimum results. Index terms - Nanofluids, Nanorefrigerant, Nanolubricant, Nanoparticles, Heat transfer, Al2O3.

Type : Research paper


Copyright: © Institute of Research and Journals

| PDF |
Viewed - 80
| Published on 2017-05-30
   
   
IRAJ Other Journals
IJMPE updates
We are happy to announce that Dr. R. A. SAVANUR joined as the CHief Editor for IJMPE.
The Conference World

JOURNAL SUPPORTED BY