SU1216577A1 - Method of heat power recovery in room ventilation systems - Google Patents

Description

The invention relates to ventilation and can be used mainly in rooms with significant excess heat.

The purpose of the invention is to increase the economy.

Fla FIG. 1 shows a room ventilation system for implementing the proposed method; in fig. 2 - heat exchanger

The room ventilation system comprises a fresh air installation 1, connected by a fresh air channel 2 to a room 3 and an air intake device 4, and a exhaust 5, connected by an exhaust channel 6 to a room 3 and an exhaust device 7.

A rotary regenerative heat exchanger 8 is installed in the system, in the housing 9 of which a rotating nozzle 10 is fixed on the axis. The chamber 11 is equipped with a bypass channel 12, and the air flow switch 13 is installed in the channel 6. The chamber 11 is connected to the pipeline 14 for supplying water, on which the ball valve 15 and the valve 16 are installed. The chamber 11 is also connected to the pipeline 17 to drain the water. on to A valve 18 is installed on the tap, and with a pipe 19 for water overflow.

The method of utilization of heat energy is carried out as follows.

In the winter season, air is supplied through a part of the rotating heat exchanger 8 installed in the supply air duct 2, and the air from the room is removed through another part of the heat exchanger 8 installed in the exhaust duct 6, and there is no water in the chamber 11, valves 16 and 18 are closed, the air flow switch 13 is set to. a position that prevents air from entering the bypass channel 12. External cold air is taken in through the air intake device 4 and through channel 2 due to the dilution created by the intake unit 1, is supplied to the upper part of the heat exchanger B, where it is heated due to the perception of heat from rotating nozzles 10. Next

The heated air through the channel 2 is supplied to the air handling unit 1, and then supplied to the room 3.

Warm air is taken from room 3 and through channel 6 due to the discharge created by the exhaust unit 5, is supplied to the chamber 11, where it heats the nozzle 10, as a result of which the air removed from the room is cooled;

Next, the cooled air through the channel 6 enters the exhaust unit 5, and then is emitted into the atmosphere through the exhaust device 7,

In the summer, the air is also supplied to the room 3 through a part of the rotating heat exchanger 8 installed in the supply air channel 2, and the air from the room is removed, the heat exchanger 8 is removed, while part of the heat exchanger 8 installed in the exhaust channel 6 is cooled with water. In this case, the chamber 11 is filled with water that enters it through the pipeline 14 through the open valve 16 and the ball valve 15, which maintains a constant water level in the chamber 11. The rotating nozzle 10 is immersed in water and, consequently, its surface is constantly wetted. In this case, the air flow switch 13 is set to a position that ensures the flow of air into the bypass channel 12. Excess water is removed from the chamber 11, for example, if the ball valve 15 is faulty, it is carried out via a pipe 19 for water overflow. External warm air is taken in through the air intake device 4 and through channel 2 enters the upper part of the heat exchanger 8, in which adiabatic or polytropic processes (cooling) of the outside air are carried out due to evaporation of moisture from the wetted surface of the rotating nozzle 10.

Next, the conditioned air through channel 2 enters supply air 1, and then is supplied to room 3

The warm air is taken from room 3 and through channel 6 through the switch 13 into the bypass channel 12, the chamber 11, and then to the exhaust unit 5, which releases it into the atmosphere through the exhaust device.

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Claims (1)

METHOD FOR RECYCLING THERMAL ENERGY IN VENTILATION SYSTEMS OF THE PREMISES by supplying air to the room in the winter and. summer periods of the year through a part of a rotating regenerative heat exchanger installed in the supply air channel and air removal from the premises in the winter season through another part of the heat exchanger installed in the exhaust channel, characterized in that, in order to increase efficiency, in the summer season the heat exchanger installed in the exhaust duct is cooled with water, and air is removed from the room bypassing the heat exchanger. SU .. „1216577