DE555542C - Absorption refrigeration machine - Google Patents

Description

4 absorption chiller It is known to operate continuously To build absorption chillers without moving parts in such a way that the gaseous Refrigerant in the absorber and evaporator a neutral, d. H. non-absorbable Gas is added. If you then arrange the evaporator higher than the absorber, this creates an automatic circulation of the gas mixture, as the gas that has cooled down in the evaporator Gas mixture is specifically heavier than the neutral gas leaving the absorber. By choosing a neutral gas whose molecular weight is less than that of the refrigerant, the effect can be increased. To achieve that liquid Refrigerant still evaporates at the lowest evaporator temperature, it is advisable to to bring it into contact with the gas mixture in which the gaseous Refrigerant still has the lowest partial pressure while that in the evaporator liquid refrigerant entering warm still evaporates even if the partial pressure of the refrigerant in the gas mixture has already increased as a result of enrichment, with others In other words, the absorption solution is not only left in the absorber, but also in the evaporator the refrigerant to be evaporated in countercurrent to that under the influence of the differences the specific weight of the gas mixture circulating through the evaporator and absorber flow and thus achieves the most beneficial thermodynamic effect.

In absorption machines of the type mentioned above, one has hitherto the gas mixture lines are arranged so that they are also used to discharge the non-evaporated Serve liquid located in the lower part of the evaporator in a depending on the Operating conditions tend to accumulate more or less large amount.

According to the invention, the aforementioned amount of liquid is discharged a special liquid line is provided, which is designed so that in it can form a liquid seal, and which opens into the line, through which the gas mixture flows from the evaporator to the absorber. This has the advantage that one in the leadership of the gas mixture line by considering the discharge the mentioned amount of liquid is not hindered in any way. As a result of the fact that the aforementioned liquid line is not directly in the Absorber, but opens into the gas mixture line leading to the absorber, one achieves the further advantage that part of the refrigerant from the evaporator flowing off, the liquid flowing through the gas mixture line is always rich in refrigerant Gas mixture evaporated into it. As a result, the initiation at the start of operations of the automatic gas mixture circulation.

An exemplary embodiment is shown in the drawing. The cold is generated in the evaporator i in that the liquid refrigerant flowing in through the pipe 2, for example ammonia, evaporates. It drips down over the plate 3 through the evaporator i from top to bottom, while the gas mixture enters the evaporator through the tube 4 and flows upwards. Here it absorbs the evaporating ammonia and passes through the pipe 5 into the absorber 7. Inside the absorber, poor absorption solution drips down, which is supplied through the pipe 8, collects at the bottom of the absorber and flows out again through the pipe 9. The solution absorbs a large part of the ammonia content from the gas mixture, so that this only has a low ammonia content when it leaves the absorber again through the pipe 4. The enriched solution flows from the absorber through the pipe 9 into the expeller 13, which is heated by heating cartridges 14. The ammonia gas is driven out again by the supply of heat. It flows upward through a pipe 16 and entrains the ammonia solution with it into a gas separator 15. From this, the depleted absorption solution passes through the pipe 8 back into the absorber 7, while the expelled ammonia gas is passed through the pipe 17 into the condenser 19. Here it is condensed and the heat of evaporation is dissipated through the pipe coil 2o. The condensate passes through the pipe 2 into the evaporator i.

In the device described, the highest point of the tube 4 is higher than the point at which the gas mixture from the evaporator i enters the tube 5. This results in the following for the gas mixture circulation: During the standstill of the absorption refrigeration machine, the evaporator i and the absorber 7 have been filled with a gas mixture which has the same ammonia gas content everywhere. For the purpose of putting into operation, the expeller 13 is now heated by the heating cartridges 14. The expelled ammonia gas passes through the pipe 17 into the condenser i9, where it condenses and enters the evaporator i as a liquid. The gas mixture, which has become heavier due to cooling and the gaseous ammonia, tends to sink downwards, so it also fulfills the adjoining lower part of tube 4, but cannot rise higher in this tube than in the evaporator i. The gas mixture in the evaporator thus becomes more and more enriched with ammonia until the cooled and enriched gas mixture enters the pipe 5 and here sinks downwards due to its greater specific weight and flows towards the absorber. This initiates the circulation of the gas mixture in the desired sense; the low-ammonia gas mixture displaced from the absorber passes through the pipe 4 into the lower part of the evaporator i, and operation is thus in progress.

For the purpose of removing the accumulating in the lower part of the evaporator Unevaporated amount of liquid is provided a cleaning line 6, which from goes out of the lower parts of the evaporator and opens into the gas mixture line. the Line 6 is designed like this; that a liquid seal can form, so that they do not allow the gas to pass through. Because the line 6 is not immediate into the absorber 7, but into the part 5 of the gas mixture line leading to the absorber opens out, it is achieved that part of the ammonia from the diverted liquid evaporates into the gas mixture flowing past, which causes the initiation at the start of operation of the desired gas circulation.

The invention is important even if the vaporizer is not liquid ammonia is supplied, but an absorption solution enriched with ammonia, from which the ammonia evaporate into the added inert gas target.

Claims (1)

PATENT OPPOSITION: Absorption refrigeration machine in which both the absorber the absorption solution as well as the refrigerant to be evaporated in the evaporator Countercurrent to that under the influence of the differences in specific gravity Mixture of evaporated refrigerant and circulating through evaporator and absorber neutral gas flows, being the conduit that carries the neutral gas on its way flows through from the absorber to the evaporator, higher than the outlet point of the gas mixture out of the evaporator up and then down again, characterized in that that a liquid line (6) through which in per se known `ice un -,: evaporated liquid residues from the evaporator (i) into the expeller (13) and the liquid circulation system containing the absorber (7) of the absorption machine flow off can, is designed so that a liquid seal can form in it and opens into that line (5) through which the gas mixture from the evaporator (i) flows to the absorber (7).