SU39784A1 - Batch Absorption Unit - Google Patents

Description

In absorption chillers, at a low evaporation temperature, a high cooling water temperature and a low heating source temperature, the achievable maximum concentration of the absorbing substance may be equal to or less than the minimum concentration of the substance that should be obtained during the evaporation period.

The presence of these conditions makes the usual periodic absorption chiller impracticable.

In the proposed periodic absorption refrigeration unit, two generator-absorber and two heating periods are used, the first occurs at intermediate pressure and one generator and the sorber act as a boiler and the other as an absorber.

In another form of installation, a double refrigeration action is obtained with a single expenditure of heat, and instead of a single absorber-generator, it includes an apparatus that operates alternately as a resorber or as a degasser.

(67)

In FIG. 1 shows a diagram of a batch absorption refrigeration unit; - FIG. 2 is another form of implementation thereof.

The installation consists of the following apparatus interconnected: two generator-absorbers I and 2, condenser 3 and evaporator 4 (Fig. 1).

In the first heating period, when the cooling action takes place, the vapors produced in the evaporator are directed through conduit 5 to the absorber / sorber 1, which is cooled. Crane 6 is open and taps 7 and 8 are closed. The process takes place at evaporation pressure.

In the second period, an evaporation process takes place in the generator-absorber 1. A heat source 9 comes into effect. The agent vapors produced at intermediate pressure are directed to the generator-absorber 2 via conduit 11, where they are absorbed. The absorber generator 2 is then cooled. All taps may be open, but taps 6 and 8 are best kept closed.

In the third period, the process of secondary evaporation takes place. Turn off

heat source 9 and include a heat source; l. A pair of agent through the pipeline 12 enters the condenser 3, and from there to the evaporator 4. The condenser 3 is cooled. Crane 8 is open, and all other cranes are closed. The process takes place at condensing pressure. At the end of this period, a period of cooling action begins again.

The first period can be combined in time with the third period. Installation can be performed with a dry or liquid absorbent.

In another form of installation, shown schematically in FIG. 2, instead of the absorber generator I, the apparatus included a 16-degasser resorber.

In this installation, consisting of a generator-absorber 13, a condenser 14, an evaporator 15 and a decontaminator 16, during the first period the refrigerant is evaporated in the generator-absorber 13 using a heat source 17. The resulting pairs are directed through line 18 to the condenser 14, where condense and enter the evaporator 15. The taps 19 and 20 are open.

In the second period, the vapors obtained in the evaporator 15 as a result of the first refrigeration action flow through conduit 21 to the degasser-resorber 16, in which they are absorbed. The latter is cooled. Cranes 19 and 20 close.

In the third period, the vapors from the decontaminator 16 are sent to the generator-absorber 13 via conduit 22. The generator-absorber 13 is cooled. Evaporation in degasatorezorbor 16 occurs at low

pressure and, therefore, at low temperature) due to which a secondary refrigerating effect is obtained. Cranes 19 and 20 are open.

Installation can be performed with dry or liquid absorbents and rust sorbents.

The proposed installation has no moving parts, and the same devices alternately carry the functions of the generator and absorber and degasser and resorber.

With this installation, a double refrigeration effect is obtained with a single expenditure of heat, and the first refrigeration action is obtained in the evaporator 15 by absorbing the releasing agent in the resorber - degasser 16, and the second is obtained in the resorber degasser 16 when absorbed by the agent-absorber 2. parts and alternately use the generator as an absorber, and a degasser-like resorber.

The subject matter of the invention.

Claims (2)

1. A batch absorption refrigeration unit, characterized by using two absorber generators 1, 2 (Fig. 1), of which the generator-absorber 1 operates at an intermediate pressure. 2. The form of installation performance under item 1, characterized in that instead of the generator absorber 1 it is included the apparatus 16 (Fig. 2), working alternately as a resorber, absorbing a pair of X9 fertilizing substances supplied to the fiero from an evaporator, then as a degasser, evaporating a refrigerant at low temperature and low pressure.