Abstract: A self-cooling and self dispensing beverage container in the form of a keg which includes a heat exchange unit having a plurality of segments of compressed carbon disposed therein. A valve is secured to a tube attached to the REU housing for carbon dioxide to adsorbed and then desorbed by the carbon for cooling the beverage. A dispense gas canister is disposed within the container to automatically release carbon dioxide to maintain a pressure head within the container sufficient to assure dispensing of the beverage.

Abstract: A self-cooling can (10) which is suitable for cooling 300 ml of beverage by 30° F. in a maximum of 3 minutes comprises an internal evaporator (30) and an absorber unit (20) which is fixed typically to the base of the can. Cooling is initiated by providing a vapour path from the evaporator (30) to a desiccant region of the absorber unit (20). Heat is removed from the vapour and/or any heat due to the reaction with the desiccant (24) by heat sink material (26) around the desiccant region (22).

Abstract: An absorption cooling device includes an expeller (7) for expelling a working agent from an enriched solvent, a first connecting line (11) for transferring said expelled working agent from said expeller (7) to a condenser (9), a second connecting line (15) for transferring said condensated working agent from said condenser (9) to an evaporator (13), a third connecting line (16) for transferring said evaporated working agent from said evaporator (13) to an absorber unit (17), a fourth connecting line (21) for transferring said solvent depleted of working agent from said expeller (7) to said absorber unit (17), a fifth connecting line (19) for transferring said solvent enriched with working agent from said absorber (17) to said expeller (7), wherein in one end of said fifth connecting line a first liquid level (25) of said solvent is formed and on the other end a second liquid level (29) is formed, and the total surface of said second liquid level (29) is smaller than ten times a medium cross-section of

Abstract: An absorption refrigerator having three or four-stage regenerators connected in series wherein a prescribed ratio of concentrated absorption fluid is fed to the high-temperature regenerator by a part of the concentrated absorption fluid directly returned to the absorber.

Abstract: The invention relates to an absorption refrigerating machine and a process for the operation thereof. It can be used as a household cooling appliance, for example as the last link in the cold chain, or for the cooling of medicine or as a refrigerating set of an air-conditioning system, and use in a stand-alone variant without an electrical energy connection is possible. The absorption refrigerating machine has a condenser, an evaporator and an absorber, and a refrigerant-absorbent mixture can be circulated through all three. There is also at least one solar collector for heating to above the refrigerant boiling point and a refrigerant storage unit connected to the condenser. High-pressurized liquid refrigerant is held in the refrigerant storage unit, and an absorbent storage unit and a desorbent storage unit are connected to the absorber.

Abstract: A method and apparatus combining absorption refrigeration and mechanical expansion refrigeration to chill an air conditioning medium wherein a mechanical refrigeration system is alternately (1) connected in series with an absorption refrigeration system during a cooling cycle to cool an external air conditioning medium, and (2) connected to drive the absorption system during a storage cycle to concentrate and store a strong internal liquid absorbent solution and to store an internal diluent refrigeration liquid which liquids are utilized during the cooling cycle.

Abstract: An absorption refrigeration method and apparatus having concentrator and evaporator phases operated at substantially equal pressure and wherein the concentrator phase utilizes a mechanically driven heat pump to concentrate absorbent solution and to condense the diluent.

Abstract: An absorption refrigerator of natural circulation type comprising a first generator connected to the lower end of a gas-liquid lift and a second generator connected to the upper end of the gas-liquid lift. A solution of an absorbing medium, which may be an aqueous solution of a salt of lithium, is heated in the first generator to be lifted through the gas-liquid lift into the second generator, and the lithium salt solution is then concentrated to a predetermined concentration in the second generator.