SU1613809A2 - Installation for utilizing heat energy in conditioning systems - Google Patents

Abstract

The invention relates to a technique of ventilation and air conditioning. The installation for utilization of thermal energy in air conditioning systems contains two heat exchangers 1 and 2 and channels 3 and 4 of supply and exhaust air. The first heat exchanger 1 with one cavity 5 is placed in the supply air channel 3, and the other with cavity 6 in the exhaust air channel 4. The second heat exchanger 2 is located in two cavities 7 and 8 in the supply air channel 3, with one cavity 7 connected to channel 3 before the first heat exchanger 1, and the other cavity 8 after. The cavities 5 and 6 of the first heat exchanger 1 and the cavities 7 and 8 of the second heat exchanger 2 are connected to each other, respectively, by the first and second circulation circuits 9 and 10 of the intermediate heat transfer medium. The outlet 13 of the first circulation circuit 9 from the cavity 6 is connected to the inlet 14 of the second circulation circuit 10 into the cavity 7. The outlet 15 of the first circulation circuit 9 from the cavity 5 is connected to the inlet 16 of the second circulation circuit 10 from the cavity 8. 1 Il.

Description

The invention relates to techniques for ventilation and air conditioning and is an improvement on the author. St. No. 1216579.

The purpose of the invention is to increase the reliability.

The drawing shows a schematic diagram of a plant for the utilization of thermal energy in air conditioning systems.

The installation for the recovery of thermal energy in air conditioning systems contains two heat recovery units 1 and 2 and channels 3 and 4 of the supply and exhaust air, the first heat recovery unit 1 with one cavity 5 located in the supply air channel 3, and the other cavity 6 in the exhaust air channel 4 .

The second heat recovery unit 2 is placed by two cavities 7 and 8 in the supply air channel 3, while one cavity 7 is connected to the channel 3 before the first heat recovery unit, and the other cavity 8 after.

Cavities 5 and 6 of the first unit 1 and cavities 7 and 8 of the second unit 2 are connected, respectively, by the first and second circulation circuits 9 and 10 of the intermediate coolant.

At the input 11 of the first circulation circuit 9 into the cavity 6 of the first heat exchanger, a circulation pump 12 is installed. The output 13 of the first circulation circuit 9 from the cavity 6 of the first unit 1 located in the exhaust air channel 4 is connected to the input 14 of the second circulation circuit 10 into the cavity 7 of the second unit 2 located in the supply air duct 3.

The output 15 of the first circulation circuit 9 from the cavity 5 of the first unit 1 located in the supply air channel 3 is connected to the output 16 of the second circulation circuit 10 from the cavity 8 of the second unit 2 located in the supply air channel 3 after the first unit 1.

Installation for the utilization of thermal energy in air conditioning systems works as follows.

The exhaust air removed from the conditioned object 5 enters the heat recovery unit 1, where it transfers heat to the cavity 6 to the intermediate heat carrier and then is vented to the atmosphere.

Supply air sequentially passes through cavities 7, 5 and 8 and then, heated up 10, enters channel 3 into an air-conditioned object.

At the same time, the heated intermediate coolant from the cavity 6 is supplied sequentially in the cavities 7 and 8 of the second unit 2 and in parallel to the cavity 5 of the first unit 1.

After cavities 5 and 8, the intermediate cooled coolant is mixed and circulated along the circulation circuit 9 of the pump 12 20 to the cavity 6 of the unit 1.

The heat transfer surface of the cavity 8 is selected so that the temperatures of the intermediate coolant after the cavity 5 and the cavity 8 are equal to each other.

Claims (1)

Claim Installation for the utilization of thermal energy in air conditioning systems by ed. St. No. 1216579, characterized in that, 30, in order to increase the reliability of operation, the output of the first circulation circuit from the cavity of the first heat exchanger, located in the exhaust air channel, is connected to the input of the second circulation circuit into the cavity of the second heat exchanger, 35 located in the supply air channel in front of the heat exchanger and the output of the first circulation circuit from the cavity of the first heat exchanger located in the supply air channel is connected to the output of the second circulation circuit from the cavity of the second heat a heat exchanger located in the supply air channel after the first heat exchanger.