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Solar driven cooling machines have been employed until recent years only in niche markets due to a series of reasons: dimensions of the machines, cooling power storage, production costs, and others. At present times there's a high request for a reliable technology :veloped for domestic applications at distributed level. The solar heating is a rapidly growing market and the available technologies ire almost consolidated, but a strong limitation to the application of solar collectors is due to the waste heat available in summer leriods, which limit the sizing of solar domestic installations, limit the capacity to provide not only support to hot sanitary water, but even to indoor space heating. The objective of the present work is to suggest a possible solution and try to give a contribution to the iescribed problem. The R&D performed at FBK-REET labs has produced a new concept of solar driven cooling/heating machine )ased on a double adsorption/desorption cycle acting between two small tanks. The machine, working cyclically between desorption nd adsorption, is provided of an heat storage to separate the cooling energy availability from the solar radiation. Thus the system is Je to provide not only cooling power in hot periods, but even heating in colder times or for hot sanitary water production. The system maybe scaled up or down in cooling capacity, sizing properly the porous adsorbing material volumes, and in cooling power, changing the air mass flow through the system. A prototype has been built, provided of a cooling capacity of about 25 kWh|h and wling power retrofittable until a max of 4 kWlh in the range of cold temperatures of about 8-M2°C. The overall COP is in the range of 0,6^-0,7. The system is patent pending (Publication number: WO2008099262).
Czasopismo
Rocznik
Tom
Strony
43--53
Opis fizyczny
Bibliogr. 14 poz., il.
Twórcy
autor
autor
autor
autor
- Renewable Energies and Environmental Technologies unit (REET), Fondazione Bruno Kessler (FBK) Povo Trento, Italy, crema@fbk.eu
Bibliografia
- Brunauer, S., Emmett, P., Teller, E., (1938), J Am Chem Soc, 60: 309-19.
- Cacciola, G., and Restuccia, G. (1994)"Progress on adsorption heat pumps.", Heat recovery Systems and CHP, 14(4):409-20.
- Dubinin, M., Astakhov, V., (1970), Adv Chem Ser, 102:69.
- Dubinin, M., Astakhov, V., (1971) "Development of the concept of volume filling of micropores in the adsorption of gases and vapours by microporous adsorbents.", Washington, DC: American Chemical Society.
- Dubinin, M, Zavorina, E., Radustkevich, L., (1947), Zb Fiz Khim,6(21):l35l.
- Exell, R., Jing, H., (1993) Renew Energy, 3(6/7): 567-75.
- Freundlich, H., (1926) "Colloid and capillary chemistry.", London: Methuen &Co. Ltd.
- Langmuir, I., (1918) "The Adsorption of Gases on Plane Surfaces of Glass, Mica, and Platinum.", J Am Chem Soc, 40:1961-5.
- Leite, A., (1998)"Thermodynamic analysis and modeling of an adsorption-cycle system fro refrigeration from low gradeenergy sources.", Journal of the Brazilian Society of Mechanical Sciences, 20(3): 301-24.
- Polany, M. In: Smisek M., Cerney S., editors. "Active carbon manufacture, properties and application", London: Elsevier Publishers.
- Sadoka, A., Sazuki, M., (1986), J Solar Energy Eng, 108:239-49.
- Sukhmeet, S., Farm Pal, S., (1998) "Regeneration of silica gel in multi-shelf regenerator", Renewable Energy, 13 (1):105-19.
- Wanga, D. C., et al, (2005) "Study of a novel silica gel-water adsorption chiller. Part I. Design and performance prediction", International Journal of Refrigeration, 28:1073-83.
- Wanga, D. C., et al, (2005) "Study of a novel silica gel-water adsorption chiller. Part II. Experimental study", International Journal of Refrigeration,
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPBA-0003-0008
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