SU1442793A2 - Apparatus for recovering energy in air conditioning systems - Google Patents

Abstract

The invention allows to increase the degree of utilization of thermal energy in air conditioning systems. The bypass air duct (VF) 11 is connected to the inlet VF 1 to the heat exchanger 3 and after the heat exchanger (TVO) 4 along the course of the fresh air. Between the point of connection of the BB 11 and the TVO 4, an apparatus 12 for cooling and dehumidifying air is installed. The first additional channel (K) 13 is connected to BB 1 before the point where the BB 11 is connected to it. The second additional channel 14 is connected before the point of connection to BB 1 K 13 and the point of connection BB 11 on the apparatus side 12. In places where BB 11, K 13 is connected , 14 installed valves 15, 16, 17. Apparatus 12 m. B. designed as a contact apparatus or surface type heat exchanger. This ensures that the full potential of the outdoor air is used. 1 il. "

Description

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The invention relates to the technique of ventilation and air conditioning and is an improvement of the device according to the authors. St. No. 932122.

The aim of the invention is to increase the degree of utilization of thermal energy.

The drawing shows a schematic diagram of a device for utilizing thermal energy in air conditioning systems.

The device for utilization of thermal energy contains supply and exhaust ducts 1 and 2, in which a regenerative heat exchanger 3 and a heat / moisture exchanger 4 are installed successively along the supply air, three bypass channels 5-7 with valves 8-10, and the inputs of the first 5 and second 6 channels connected to the exhaust duct 2 in front of the heat exchanger 4, the inlet of the third channel 7 and the exit of the second channel 6 between the heat exchanger 3 and the heat exchanger 4, and the outlets of the first channel 5 and the third channel 7 behind the heat exchanger 3.

The bypass duct And is connected to the intake duct 1 to the heat exchanger 3 and after the heat exchanger 4 along the supply air.

Between the point of connection to the intake duct 1 of the bypass duct 1 1 and the heat exchanger 4, an apparatus 12 for cooling and drying the air is installed.

The first additional channel 13 is connected to the supply air duct 1 in front of the point where the bypass duct 11 is connected to it from the heat exchanger 3 side and in front of the heat exchanger 4.

The second additional channel 14 is connected in front of the connection point to the supply duct I of the first additional channel 13 and heat exchanger 3 and behind the connection point of the bypass duct 11 from the side of the cooling and dehumidifying device 12.

In the places where the bypass duct 11 is connected to the intake duct 1, after the cooling and dehumidifying unit 12, the first additional channel 13 to the inlet duct 1 in front of the heat exchanger 3 and the second additional channel 14 to the flow duct 1 in front of the heat exchanger 4 are installed, respectively, valves 15-17.

The apparatus 12 for cooling and dehumidifying air can be made in the form of a contact apparatus or surface type heat exchanger.

The device works in the following way.

In heat exchanger 3, heat is exchanged between the external and exhaust duct in apparent heat, and in the heat and moisture exchanger 4 heat and mass transfer between the external and exhaust air takes place, while air flows

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are connected along ducts 1 and 2 in opposite directions.

The outside air is sequentially heated in the heat exchanger 3 and then further heated and humidified in the heat exchanger 4.

The heat exchange processes in the heat exchanger 3 and the heat and mass transfer in the heat exchanger 4 are regulated using valves 8-10 by way of passing through, if necessary, part of the air through bypass channels 5-7.

In the period of operation of the device, when the joint use of the heat exchanger 3 and the heat exchanger 4 becomes inefficient, the drying, the simultaneous treatment of the outside and fresh air is used.

When the valves 15-17 are closed, outside air is passed through the first additional channel 13 to the heat exchanger 4, then through the duct 1 to the cooling and drying apparatus 12 and the air, through the exhaust duct 11 to the heat exchanger 3 to dry, extinguish the after-treatment of the outside air and the second additional channel 14 is served to the consumer.

In the warm season, when the temperature and moisture content of the outside air is higher than the temperature; and the humidity of the exhaust air, the latter enters the heat exchanger 4, then B is a heat exchanger; at ENEN 3 with the valves 8-10 closed.

Thus, the outside air after the cooling and drying unit 12 is heated in the heat exchanger 3, being preheated in the heat exchanger 4 with the heat of exhaust air, which leads to a significant reduction or complete elimination of the need for an energy source for treating the outside air.

When the outside air temperature falls below the exhaust air temperature, the air flows through the channels 5-7 with the valves 8-10 open.

At the same time, the external air is moistened in the heat exchanger 4 due to pre-cooling (exhaust air 3 in the heat exchanger 3), which leads to saving of heat energy for external air treatment as a result of the full utilization of the thermal potential of the exhaust air.

Claims (1)

Invention Formula A device for the utilization of thermal energy in air-conditioning systems according to ed. St. No. 932133, characterized by, m, that, in order to increase the degree of utilization of thermal energy, it is equipped with two additional bypass channels and an air cooling and drying unit. 1442793 34 a heat and moisture exchanger installed in the flow air duct, and the second one between the connection point to the bypass channel is in front of the place of the air intake duct and the heat and water exchanger connected to the inlet air duct — the first additional channel of the inlet additional channel and heat inlet to the inlet air duct the air duct of the front duct and behind the point of connection of the bypass - the place where the bypass duct is connected to it from the side of the duct unit on the heat exchanger and cooling side and dried air .