SU1740911A1 - Unit for supplying heat and cold to plants - Google Patents

Abstract

Installation to provide the object with heat and cold. Usage: refrigeration and heating technology and thermostating of industrial objects. Essence of the invention, the installation includes an air intake (1), a filter (2), a compressor (3), recuperative heat exchangers (4, 7, 8) a turboexpander (13), an adsorber (12) , generator (13), and thermoelectric cooler (16) connected to it. In the turbo exhauster (13), the air is cooled through the recuperative heat exchanger (8) along the line

Description

The invention relates to a refrigeration-heating technique and can be used for thermostating industrial objects at different temperature levels.

A known installation for providing an object with heat and cold, having a heat exchanger on a low pressure line, and on a delivery line to an air object with a temperature above the ambient temperature, electric heaters.

Its disadvantage is high capital and operating costs.

Also known is an installation for producing heat and cold, comprising a series-connected compressor, fercondensers, a condenser, a throttle evaporator, the evaporator having a circuit that connects it to the cold consumer, and a condenser and ferocapacitors that have a circuit connecting them to the consumer.

Its disadvantage is high capital and operating costs.

Closest to what is known is a plant for providing an object with heat and cold, containing a compressor for compressing air, a high pressure line with a heat exchanger for heating the air supplied to the object, recuperative heat exchangers, condensate collectors. an adsorbent, a turbo-expander, on the same shaft with which the generator is located, and a low pressure line after the tube expander with a recuperative heat exchanger

However, it also has high capital and operating costs.

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The aim of the invention is to reduce capital and operating costs.

This is achieved by the fact that in an installation for providing an object with heat and cold, containing an air intake, a filter, a compressor, recuperative heat exchangers, a water heat exchanger, condensate collectors, valves, an adsorber, a turboexpander, a generator, cold and warm air supply lines, additionally have air exhaust after the turbine expander and the air exhaust line after the recuperative heat exchanger, located in front of the adsorber, as well as the thermoelectric cooler electrically connected to the generator, cavity x The young junctions of which are connected with the air exhaust line after the turboexpander, and the cavity of the hot layers - with the air exhaust line after the recuperative heat exchanger located in front of the adsorber.

The drawing schematically shows the proposed installation.

The installation contains successively placed air intake 1, filter 2. compressor 3, recuperative heat exchanger 4, water heat exchanger 5, condensate collector 6, recuperative heat exchangers 7 and 8. condensate collector 9, valves 10, 11, adsorber 12, turbo-condenser 13. From the heat exchanger 8 leaves the supply line 14 in the volume of cold air, and from the heat exchanger 4 - the supply line 15 to the object of warm air. Thermoelectric cooler 16 is associated with completely cold layers with air removal line 17 after turboexpander 13, completely hot layers with air removal line 18 after recuperative heat exchanger 8 located in front of adsorber 12. It is also electrically connected with generator 19 mounted on one shaft with a turbo detander 13.

The installation works as follows.

The ambient air through the air intake 1 and the filter 2 enters the compressor 3, where it is compressed and heated. Then the air enters the high pressure line to the heat exchanger 4. where it is cooled during heat exchange with part of the air coming from the low pressure line, then to the heat exchanger 5 where it is further cooled with water with the separation of droplet moisture in the condensate collector 6, and finally into the recuperative heat exchangers 7 and 8, in which it is cooled by a counter-flow of air from

low pressure lines with moisture removal in the condensate collector 9. In the expander 13, the air entering through the valve 11 and the valve 10 and the adsorber 12, depending on the desired degree of drying, is cooled to

required temperature of the main air flow, which through the heat exchanger 8 through line 14 enters the object.

Part of the air after the expander 13,

which must be cooled to a temperature below the temperature of the main stream at 15 ... 20 ° С enters the cavity of cold junctions of thermoelectric cooler 16 and further along line 17 object.

The electric power for powering the thermoelectric cooler 16 comes directly from the generator 19. located on the same shaft with the turbo delimiter 13,

Claims (1)

The air supplied to the object with a temperature above the ambient temperature is first heated in the cavity of the hot junctions of thermoelectric cooler 16, after which part of the air through line 18 is supplied to the object, and some heat passes through heat exchanger 15 to the object. Claims An installation for providing an object with heat and cold, comprising an air intake, a filter, a compressor, recuperative heat exchangers, a water heat exchanger, condensate traps, adsorber valves, a turbo-expander, a generator, cold and warm air supply lines that are different in order to reduce capital and operating costs, the installation further comprises an air exhaust line after the turboexpander and an air exhaust line after the recuperative heat exchanger located in front of the adsorber, and kzhe electrically connected to the generator thermoelectric cooler cavity cold junctions of which is bonded to the air outlet line after turbo-expander, and the cavity of hot junctions - with the air exhaust line after the recuperative heat exchanger, located in front of the adsorber. 17