DE473835C - Absorption cold apparatus - Google Patents

Description

Absorption chiller The invention relates to absorption chillers, where absorbent vapors are separated from refrigerant vapors in a separator are bound by the extraction of heat, which occurs when the refrigerant evaporates which is made up of absorption solution circulating through the absorber and cooker of the apparatus expelled and then liquefied in a liquefier. Through the invention becomes a simplification of the apparatus of the refrigerators, of this kind under simultaneous The aim is to improve their effectiveness.

The invention consists in that the siphon and the liquefier .be united with one another in such a way that they are immediately above those contained in them Means are in mutual heat exchange.

The invention is shown in the drawing in an exemplary embodiment. the one working with inert gas absorption refrigeration apparatus known per se Kind of shows.

In this drawing, K denotes a cooker that produces an absorption solution, z. B. water, wherein a refrigerant, e.g. B. ammonia, is dissolved, contains. In the Re-heating of this cooker. Refrigerant vapors develop through a pipe i to the separator and condenser assembled into a unit according to the invention C. This combined separator capacitor essentially consists from a vessel running obliquely to the horizontal: 2, meanwhile a part inside 4 of the line i protrudes, which is expedient: along the bottom of this vessel and with this standing in metallic contact, or arranged in its lower part will. The vessel 2 is surrounded by a cooling jacket 3 through which cooling water flows, - which causes condensation of the ammonia vapors supplied to the vessel 2. That the resulting condensate precipitates or collects on the line part e is located in the lower part of the vessel 2 and washes around said line part. Through this this is kept at the temperature of the condensate, with the result that the Mixture of refrigerant vapors flowing through this part of the line and coming from the cooker and steaming the absorption liquid to that temperature cooled down with the vapors of the absorption liquid being condensed therein and as a result of the inclination of this part or the line r coming from the cooker to the cooker flow back. The line part q. ends in the vessel 2 expediently with an upward directed bend 5, so that in the upper part of the vessel 2 resulting condensate not in the line part q. can occur.

In order to avoid condensable gases that may be present in the condenser, e.g. B. hydrogen gases, the vessel 2 is connected by a line 7 to another part of the apparatus, in this case a temperature changer T, through which these gases are discharged. In the separator condenser designed according to the invention, refrigerant condensate flows through a line 6, which is pulled through the temperature changer T for the purpose of cooling the condensate, to the evaporator G of the apparatus . B. hydrogen, evaporates. The resulting gas mixture flows in a manner known per se - through the temperature changer T to the absorber A of the apparatus, where the ammonia is again absorbed by the poor solution supplied from the digester. The purified hydrogen gas flows back to the evaporator and the resulting rich solution collects in the lower part of the absorber, from where it is conveyed back to the cooker by a temperature changer P by means of a circulation device O.

Claims (3)

PATENT CLAIMS: r. Absorption refrigeration apparatus in which absorbent vapors are separated from refrigerant vapors in a separator by removing heat which is bound during evaporation of refrigerant which has been expelled from the absorption solution circulating through the absorber and cooker of the apparatus and then liquefied in a liquefaction, characterized in that the separator and the condenser are arranged in relation to one another in such a way that they are in mutual heat exchange directly via the means contained in them. 2. absorption refrigeration apparatus according to claim r, characterized in that that the separation and the liquefaction are arranged one inside the other. 3. Absorption chiller according to claim r and 2, characterized in that the deposition on the bottom or is arranged in the lower part of the cooled condenser.