ENGINEERING DEVELOPMENT OF MULTIFUNCTIONAL SOLAR SYSTEMS BASED ON THE HEAT-ABSORPTION CYCLE AND HEAT AND MASS TRANSFER DEVICES WITH A MOBILE NOZZLE

Authors

  • O.В. Дорошенко Odessa National Academy of Food Technologies, 1/3 Dvoryanskaya str., Odessa, 65082, Ukraine, Ukraine
  • В.А. Гончаренко Odessa National Academy of Food Technologies, 1/3 Dvoryanskaya str., Odessa, 65082, Ukraine,

DOI:

https://doi.org/10.15673/0453-8307.1/2015.36783

Keywords:

Heat and Mass transfer device – Fluidized bed – Absorber – Desorber Cooling tower – Solar system – Cooling system – Air conditioning

Abstract

Scheme solutions of heat-cold supply and air conditioning combined solar systems, based on the open absorption cycle with an absorbent indirect regeneration and new types of heat-mass exchange apparatus with “gas- liquid- solid body" movable nozzle utilization were developed. For the first time evaporative air and water coolers of indirect type with regular structure nozzle and mobile-three-phase layer placed between the nozzle heat transfer elements, which increases the homogeneity of the moving layer processes and growth of the of heat-mass-transfer processes efficiency were developed. On the basis of theoretical and experimental research practical recommendations for determining solar systems optimal mode parameters and geometric parameters of the main elements of heat-mass-transfer equipment have been worked out.

References

Doroshenko, А.V., Glauberman, М.А. 2012. Оdessa, ОNU n.a. Mechnikova.  447 р. (in Russian) 2. Doroshenko, Alexander V., Kholpanov, Leonid P., Kvurt, Yury P. 2009. Alternative Refrigerating, Heat-Pumping and Air-Conditioning Systems on the Basis of the Open Absorption Cycle and Solar Energy. USA. Nova Science Publishers, Inc.  210 р. 3. Doroshenko, А.V., Molchansky, B.Е. 2008. Kholodylna tekhnika ta tekhnologiya [Refrigeration engineering and technology], No. 5 (115), 1523 (in Russian) 4. Doroshenko, А.V., Dan’ko, V.P. 2012. Kholodylna tekhnika ta tekhnologiya [Refrigeration engineering and technology], No. 4 (138), 47–53 (in Russian) 5. Doroshenko, А.V., Glauberman, М.А., Dan’ko, V.P. 2012. Kholodylna tekhnika ta tekhnologiya [Refrigeration engineering and technology], No. 6 (140), 22–30 (in Russian)

Published

2015-01-26

Issue

Section

Power engineering and energy saving