Difference between revisions of "Adsorption Coolers"

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[[File:Adsorbtion.jpg|thumb|right|Adsorption Coolers]]
[[File:SCHEMATIC DIAGRAM.jpg|thumb|right|Schematic diagram of adsorption coolers]]
An '''Adsorption Cooler''' operating in accordance with the periodical adsorption principle and consisting of at least one adsorption container filled with zeolite. At least one condenser with a collecting container for the water which desorbs from the zeolite and an insulated cooling container which may be closed by a shut-off member are serially connected with the adsorption container. In the cooling container, the adsorption cooler generates ice in stages which acts as a cold buffer. The system is usable for example in solar cooling systems, vehicle air conditioning units and air conditioning insulation as well as beverage coolers.  
 
We use helium adsorption coolers for space. Two rocket –borne 3He and 4He [[Coolers ]]and a space borne 3He [[Refrigerators]] developed  to cool bolometric detectors have been successfully flown.

Latest revision as of 07:39, 3 August 2012


Adsorption Coolers
Schematic diagram of adsorption coolers

An Adsorption Cooler operating in accordance with the periodical adsorption principle and consisting of at least one adsorption container filled with zeolite. At least one condenser with a collecting container for the water which desorbs from the zeolite and an insulated cooling container which may be closed by a shut-off member are serially connected with the adsorption container. In the cooling container, the adsorption cooler generates ice in stages which acts as a cold buffer. The system is usable for example in solar cooling systems, vehicle air conditioning units and air conditioning insulation as well as beverage coolers.

We use helium adsorption coolers for space. Two rocket –borne 3He and 4He Coolers and a space borne 3He Refrigerators developed to cool bolometric detectors have been successfully flown.