IJSDR Research Journal
International Journal of Scientific Development and Research - IJSDR
(An International Open Access Journal)
ISSN:
2455-2631


Issue: July 2019

Volume 4 | Issue 7

Impact factor: 5.47

Click Here For more Info

Imp Links for Author
Imp Links for Reviewer
Research Area
Subscribe IJSDR
Visitor Counter

Copyright Infringement Claims
Indexing Partner
Published Paper Details
Paper Title: Performance Analysis of Vapors Compression Refrigeration System with Hydrocarbon Blend Mixture of Different Refrigerants
Authors Name: Kamlesh Jain , Jagdeesh Saini
Unique Id: IJSDR1802015
Published In: Volume 3 Issue 2, February-2018
Abstract: Millions of refrigeration system is domestic refrigerator & air conditionings operating with R134a all over the world have to retrofit suitably in the event of the phase out due to high global warming potential like, 1300. HC mixture is an substitute refrigerant of hydro fluorocarbon (HFC) and chlorofluorocarbon (CFC) compound due to their lower GWP and zero ozone depletion potential (ODP), the effect on the environment is also reduce due to uses of hydrocarbon mixture in different mass ratio . Refrigerant have been experimental performance analysis of the refrigeration system. used such as R134a & R1270, R290 and CARE-30(Blend Mixture of R600a & R290). Few researcher has been prove that the refrigerant R134a, Hydrocarbon Blend Mixture R600a&R1270 (90%+10%), Hydrocarbon Blend Mixture R600a&R1270 (80%+20%) & CARE30 (R1270 (50%) +R290 (50%)) used in hermetically sealed compressor with the help of REFPROF software which define the property of the refrigerant and blend mixture of refrigerant. We are going to experimentally analysis with the help of U-RIG TEST (SVCR) for the mixture of following hydro fluorocarbon (HFC) & Hydrocarbon (HC) Refrigerant. i) R134a ii) Hydrocarbon Blend Mixture R600a&R1270 (90%+10%) iii) Hydrocarbon Blend Mixture R600a&R1270 (80%+20%) iv) CARE-30 (R600a (50%) &R290 (50%)) Many performance measure like a compressor discharge temperature, pressure ratio, volumetric cooling capacity, volumetric efficiency, and mass flow rate are examined, the performance in term of coefficient of performance (COP), refrigerating capacity and compressor work to evaluated for the investigating refrigerant at various evaporating and condensing temperature. It has been found that new refrigerant CARE-30 (R600a/R290)(50/50by wt.%) blend has better performance that improved the COP of the system that is higher than R134a, Hydrocarbon Blend Mixture R600a&R1270 (90%+10%) & Hydrocarbon Blend Mixture R600a&R1270 (80%+20%),The results of the present investigation have proved that the new alternative refrigerant CARE-30 could be a better substitute.
Keywords: Refrigerant, R134a, R600a, R1270, R290, CARE-30,ODP, GWP, U-RIG TEST
Cite Article: "Performance Analysis of Vapors Compression Refrigeration System with Hydrocarbon Blend Mixture of Different Refrigerants", International Journal of Science & Engineering Development Research (www.ijsdr.org), ISSN:2455-2631, Vol.3, Issue 2, page no.149 - 158, February-2018, Available :http://www.ijsdr.org/papers/IJSDR1802015.pdf
Downloads: 0001361
Publication Details: Published Paper ID: IJSDR1802015
Registration ID:180033
Published In: Volume 3 Issue 2, February-2018
DOI (Digital Object Identifier):
Page No: 149 - 158
Publisher: IJSDR | www.ijsdr.org
ISSN Number: 2455-2631

Click Here to Download This Article

Article Preview

Click here for Article Preview







Major Indexing from www.ijsdr.org
Google Scholar ResearcherID Thomson Reuters Mendeley : reference manager Academia.edu
arXiv.org : cornell university library Research Gate CiteSeerX DOAJ : Directory of Open Access Journals
DRJI Index Copernicus International Scribd DocStoc

Track Paper
Important Links
Conference Proposal
ISSN
DOI (A digital object identifier)


Providing A digital object identifier by DOI
How to GET DOI and Hard Copy Related
Open Access License Policy
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License
Creative Commons License
This material is Open Knowledge
This material is Open Data
This material is Open Content
Social Media
IJSDR