Solar Based Refrigeration and air Conditioning By Ejector Based and LDAC Approach: A Review

  • Shyamsing V Thakur university of pune
  • Dr.S. M Lawankar
  • Ramsing V Thakur
Keywords: Solar Based AC, EBAC Ejector Based A LDAC

Abstract

The environmental benefits of New and Renewable energy sources have evolved very few devices which are functioning without producing pollutions. Usually while utilizing the solar application day timing is constraint. The need of refrigeration and air conditioning increases with increase in the intensity of sun. This advantage depicts importance of development of ejector based air conditioning and Liquid desiccant air conditioning. The power consuming device i.e. compressor in traditional VCR is replaced by ejector assembly in Ejector Based Air Conditioning. The Liquid Desiccant Air Conditioning can be used for cooling in summer and heating in winter.

References

1. Huang, B., Chang, J., (1999), Empirical correlation for ejector design, International Journal of Refrigeration, 1999, 22:379-388. 2. Chou, S., Yang, P., Yap, C. (2001), Maximum mass flow ratio due to secondary flow choking in an ejector refrigeration system, International Journal of Refrigeration, 2001, 24:486-499. 3. Engineering Sciences Data Unit (ESDU), Ejectors and Jet Pumps: Design and Performance for Compressible Gas Flow, ESDU data item 92042, Issue 2007-01, ESDU International Ltd. 4. Keenan J., Newman E., A simple air ejector, Journal of Applied Mechanics Transactions, ASME 1942:64:A75-81 5. Huang B., Chang J., Wang C., Petrenko V., A 1D analysis of ejector performance, International Journal of Refrigeration, 1999, 22:354-364 6. Keenan J., Newman E., Lustwerk F. An investigation of ejector design by analysis and experiment, Journal of Applied Mechanics Transactions, ASME 1950:72:299-309 7. Munday J., Bagster D., A new ejector theory applied to steam jet refrigeration, Ind Eng Chem Process Des Dev 1977:16:442-449 M. Dennis 12 8. Zhu Y., Cai W., Wen C., Li Y., Shock circle model for ejector performance evaluation, Energy Conversion Management, 2007:48:2533-2541 9. Zhu Y., Cai W., Wen C., Li Y., Simplified ejector model for control and optimisation, Energy Conversion and Management, Vol 49, 2008, 1424-1432. 10. Smith S., Riffat S., Wu S., Eames I., Low pressure ejectors: prediction of performance by CFD, Building Services Engineering, Residential Technolgy, 1997 18(3):179-182 11. Riffat S., Everitt P., Experimental and CFD modelling of an ejector system for vehicle air conditioning, Jourrnal Inst Energy, 1999, 72:41-47 12. Rusly E, Aye L., Charters W., Ooi A., CFD analysis of ejector in a combined ejector cooling system, International Journal of Refrigeration 2005, 28:1092-1101 13. Eames I., A new prescription for the design of supersonic jet pumps: the constant rate of momentum change method, Applied Thermal Engineering, Vol 22, 2002, 121-131 14. Sokolov, M., Hergshal, D. (1993), Optimal coupling and feasibility of a solar powered year round ejector air conditioner, Solar Energy, 50 (6), 507-516. 15. Huang B., Petrenko V., Chang J., Lin C., Hu S., A combined cycle refrigeration system using ejector cooling cycle as the botom cycle, International Journal of Refrigeration, 2000, 24:391-399 16. Sun, D. (1996), Variable geometry ejectors and their applications in ejector refrigeration systems, Energy, 21 (10), 919-929 17. Arbel A., Sokolov M., Revisitng solar powered ejector air conditioner – the greener thebetter, Solar Energy 2004, 77:57-66 18. Huang B., Petrenko V., Samofatov Y., Shchetinina N., Collector selection for solar ejector cooling system, Solar Energy 2001, 71:269-274 19. Lowenstein, A. and D. Novosel. 1995. “The seasonal performance of a liquid-desiccant air conditioner.” ASHRAE Transactions 101(1):679–686. 20. Lowenstein, A. 1998. Advanced Commercial LiquidDessicant Technology Development Study. NREL Report NREL/TP-550-24688. 21. Lowenstein, A. 2003. “A solar liquid-desiccant air conditioner.” Proc. ASES Annual Conference. 22. Lowenstein, A. 2000. Personal Communication, AIL Research. 6. Sand, J.R., S.K. Fischer, and V.D Baxter. 1997. Energy and Global Warming Impacts of HFC Refrigerants and Emerging Technologies. Report prepared by Oak Ridge National Laboratory for the Alternative Fluorocarbons Environmental Acceptability Study (AFEAS), U.S. Department of Energy.
Published
2018-03-20
How to Cite
Thakur, S., Lawankar, D., & Thakur, R. (2018). Solar Based Refrigeration and air Conditioning By Ejector Based and LDAC Approach: A Review. Asian Journal For Convergence In Technology (AJCT) ISSN -2350-1146, 3(3). Retrieved from http://asianssr.org/index.php/ajct/article/view/219
Issue
Vol 3 (2017): Issue II
Section
Article

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