SU700680A1 - Heat utilization device for compressing working body - Google Patents

Description

The invention relates to a compressor engineering, and specifically to a technique for pressurizing gas as a result of the use of thermal energy.

A known installation for compressing a working fluid, comprising a compressor with a gas distribution mechanism on its sides of the pumping and suction side and a refrigerator, heater and regenerator flj sequentially connected along the working fluid.

The disadvantage of this installation is that the heating and cooling of the sorbent passes through the vessel wall mainly due to thermal conductivity, which increases the cycle time, the sorption heat is not used and is absorbed by the cooler.

The aim of the invention is to increase the degree of compression of the working fluid.

This circuit is achieved by the fact that a vessel filled with a sorbent is installed between the refrigerator and the heater, and a valve box is installed between the supercharger and the cooler.

FIG. 1 schematically shows the proposed installation with one position of the spool; in fig. 2 with a different spool position.

The installation contains a vessel 1 filled with a sorbent 2. The upper part 3 of the vessel 1 is connected to the cooler 4. The lower part 5 of the vessel 1 is connected to the heater 6, the heater b is connected to the regenerator 7, which is connected via a spool 8 in turn to the suction 9 and the discharge side of the supercharger 9 A valve box with a suction valve 10 and a discharge valve 11 is installed on the line connecting the pump head to the net 9 with the refrigerator 4.

Installation; works as follows.

When the spool 8 is positioned (FIG. 1), the gas is pumped by the blower 9 along the circuit consisting of the cooler 4, the vessel 1 with the sorbent 2, the heater 6, the regenerator 7, the valves 10 and 11. With

the flow of gas through the sorbent gas is deprived of it, as a result of which the pressure in the circuit drops and through the suction; iy valve 10 suction takes place. When the sorbent is completely nicked, which is determined by the temperature of the refrigerator, the aspiration process ends.

The heat released during the sorption process is transferred to the regenerator and the accumulator, and is humored by its packing.

When the spool 8 is switched, when moving outside the gas, the contour changes to the opposite (Fig. 2). Gas, passage: through the regenerator 7 and heater 6, is heated in vessel 1. When heat is applied to the sorbent grains, the absorption process with heat absorption occurs, the pressure in the circuit increases. The compressed gas is discharged through the injection valve 10. When the spool 8 is switched, the prop. Process is repeated,

The use of direct heating and cooling of the sorbent grains with gas and the introduction of a regenerator into the cycle will allow

Increase the output of the NHS: and the efficiency of the installation as a whole.

Claims (1)

1. USSR author's certificate in application number 2344480, cl. F 2.5 B 9 / GS, 1976. 2. 3 h lt " at" in "" about "" in "at aav "". "c)" ( UZ.1