DE605582C - Process for operating absorption refrigeration equipment with pressure-equalizing auxiliary gas - Google Patents

Description

Method for operating absorption refrigerators with pressure-equalizing auxiliary gas The invention relates to. a method and a device for the operation of absorption refrigeration apparatus operating with pressure-equalizing gas. It 'aims to improve such systems, especially in air-cooled apparatus, and essentially so that they generate lower evaporator temperatures than before and at the same time improve the efficiency of the system.

It is already known that some auxiliary gas in such systems absorbed by the absorption solution in the absorber and expelled again in the digester - so that traces of auxiliary gas get into the condenser. These small amounts of auxiliary gas, which are accidentally taken into the condenser, have a significant impact lower temperature decrease of the refrigerant condensate than when the condensate is removed permanently subjected to the action of the gas flow.

It has also been proposed in such systems the rich gas coming from the evaporator over the liquid coming from the condenser Have refrigerant removed before this refrigerant enters the actual evaporator entry. This already gives a certain amount of undercooling in the evaporator entering condensate. However, this hypothermia is significantly improved if according to the invention, part of the poor gas coming from the absorber is transferred the refrigerant coming from the condenser before it enters the actual one Evaporator can be deleted. This gives you. in a sense two evaporators, both of which are charged with lean gas, and the bursting evaporator is used for this essentially only to the refrigerant entering the main evaporator on the bring the lowest possible temperature.

The invention will be described in more detail with reference to the accompanying drawings, further characterizing features of the invention will emerge. The figures show schematically the parts of an absorption refrigeration apparatus with pressure-equalizing gas that are essential for the invention. In it io denotes the absorber of any known type, which in a suitable manner. for example by water cooling; direct or indirect air cooling, is cooled. The absorber is connected in a known manner by lines ii and iz to the cooker and by lines 1 3 and 14, which form a temperature changer 15, with: the evaporator 16 of any known type. According to the invention, for example, the line i q. a line 17 branches off, which is merged with a line 18, from which the liquid refrigerant comes from the condenser, in a container or a pipe extension i 9. In this container i9, the refrigerant coming from the condenser (not shown) already meets lean gas, the refrigerant being severely supercooled. The gas which accumulates in this case is passed through line 20 to the temperature changer or into line 13 for the rich gas. The supercooled refrigerant. goes for example via a U-lock 21 in the actual evaporator 16, where it is with the main part of the line i q. coming gas is merged.

Since this strong pre-cooling of the condensate creates particularly low temperatures in the evaporator 16, such apparatuses are particularly useful for making ice cream, preserving ice cream or the like. suitable. Accordingly, the evaporator 1 6 may expediently have specialized training for frozen purposes.

In the exemplary embodiment shown, co-current between the condensate and the lean gas is shown in the container. Naturally, the corresponding exchange can also take place in countercurrent. If the evaporator is equipped, for example, as an evaporator with insert plates, it may be sufficient to choose the embodiment according to Fig. 2, which shows schematically only the evaporator with its connecting lines. That by Leitun9 i q. in the evaporator 1 6 passing gas is through. the insert plates of the evaporator somewhat inhibited, so that .a part of it through the container or the thicker tube ig, which opens directly into the evaporator 1.6, must flow in. In this thick tube i 9, part of the gas flows over the refrigerant flowing from line 18 to the evaporator, this being severely supercooled. The see thereby enriching gas is passed through line 2o to line 1 3 or to temperature changer 1 5 , whereby. only needs to be secured, the line däß 2o such in the pipe 1 9 opens that no liquid refrigerant flows through conduit 20 in an undesirable manner. The invention is not restricted to the exemplary embodiments shown.

As can be seen from the figure, the evaporation surface of the higher temperature evaporator is arranged higher than the evaporation surface of the main evaporator 1 6, which reaches the lowest temperature. This is advantageous for the air circulation in the refrigerator because, with a suitable arrangement of the evaporation surfaces, the air which is applied to the cold evaporator can already be pre-cooled by the pre-evaporator.

Claims (6)

PATENT CLAIMS: i. Procedure for operating absorption refrigerators with pressure-equalizing auxiliary gas, in which auxiliary gas and liquid refrigerant are available the main evaporation point are brought together, characterized in that poor gas coming from an absorber is divided into a multitude of parallel flows will; while refrigerant coming from the condenser one behind the other with the gas flows is brought into contact. 2. The method according to claim i, characterized in that .that gas flow and liquid refrigerant in at least one of their contact in Be guided countercurrent to each other. 3. Absorption chiller with pressure equalizing Auxiliary gas, characterized in that the condensate before it enters an @ evaporator low temperature, which is used, for example, as an ice maker, by means of an evaporator higher temperature occurs, with the condensate in the latter evaporator through poor auxiliary gas sweeping over the condensate is supercooled. q .. Absorption chiller according to claim 3, characterized in that the pre-evaporator and post-evaporator are both of poor, Auxiliary gas coming from the absorber are swept through in parallel streams. 5. Absorption chiller according to claim 3, characterized in that the evaporation surface of the evaporator higher temperature is higher than the evaporation area of the evaporator is lower Temperature. 6. absorption refrigeration apparatus according to claim 5, characterized in that that the evaporation surfaces of both evaporators condensate of different temperatures obtain.