SOLAR REFRIGERATION AND AIR CONDITIONING SYSTEMS ON THE BASIS OF ABSORBING CYCLE AND EVAPORATED COOLERS OF GASES AND LIQUIDS. ANALYSIS OF FUNDAMENTAL POSSIBILITIES

Authors

  • А.В. Дорошенко Odessa National academy of food technologies, 1/3 Dvoryanskaya str., Odessa, 65082., Ukraine
  • Аміна Абдсемед University of Science and Technology, Houari Boumediene, BP 32, Alger, 16123 Algiers, Algeria,

DOI:

https://doi.org/10.15673/0453-8307.3/2014.32570

Keywords:

Solar Systems – Absorption cycle –Evaporative cooler – Multichannel nozzle –Polymeric materials – Com-bined heat and mass transfer– Condensation of water vapor

Abstract

The concept of evaporating cooling gases on the basis of the new generation multichannel polymeric structures is developed. Natural cooling limit in such systems is the dew point of the ambient air, which significantly extends the capabilities of evaporative cooling technology in general and allows to solve a number of problems of refrigeration and air-conditioning with a significant reduction in energy costs for implementing the processes. Special attention is paid to the water vapor re-condensation  during the transition to the deep evaporative cooling of media. On the basis of the authors theoretical and experimental data, preliminary analysis of such refrigerants possibilities with respect to evaporative cooling problem solving is performed. 

References

REFERENCES

1.Doroshenko A. Kompaktnaya teplomassoobmen­naya apparatura dlya kholodil'noy tekhniki (teoriya, raschet, inzhenernaya praktika). Doktorskaya dissertatsiya, Odesskiy institut nizkotemperaturnoy tekhniki i energetiki. Odessa. - 1992. – t. 1. – 350 s., t. 2. – 260 s.

2.Doroshenko A.V., Glauberman M.A. Al'ternative­naya energetika, Solnechnye sistemy teplo-khladosnabzheniya, Odessa, ONU im. Mechnikova, 2012, 447 s.

3.Doroshenko A., Boris Blyukher, Solar Power Engineering (Theory, Development, Practice), Handbook of Research on Solar Energy Systems and Technologies IGI Global, USA. 2012., 445 р.

4.Y. Jiang, X. Xie. Theoretical and performance of an innovative indirect evaporative chiller. Solar Energy 84 (2010) 2041-2055.doi: 10.1016/j.solener.2010.09.012

5.Foster R.E., Dijkastra E. Evaporative Air-Conditioning Fundamentals: Environmental and Economic Benefits World Wide. International Conference of Applications for Natural Refrigerants’ 96, September 3-6, Aarhus, Denmark, IIF/IIR, 1996. - P. 101-109.

6.Steimle F. Development in Air-Conditioning. International Conference of Research, Design and Conditioning Equipment in Eastern European Contries, September 10-13, Bucharest, Romania, IIF/IIR. - P. 13-29.

7.Stoitchkov N. J., Dimirov G.J. Effectiveness of Crossflow Plate Heat Exchanger for Indirect Evaporative Cooling. Int. J. Refrig., vol. 21, no. 6. – 1998. - P. 463-471.doi: 10.1016/s0140-7007(98)00004-8

8.Maisotsenko V., Lelland Gillan, M. 2003, The Maisotsenko Cycle for Air Desiccant Cooling21h International Congress of Refrigeration IIR/IIF, Washington, D.C.

Hakan Caliskan, Arif Hepbasli, Ibrahim Dincer, Valeriy Maisotsenko Thermodynamic performance assessment of a novel air cooling cycle: Maisotsenko cycle International Journal of Refrigeration 34 ( 2011 ) 980 – 990.doi: 10.1016/j.ijrefrig.2011.02.001

Issue

Section

Power engineering and energy saving