SU1320599A1 - Method of heating air - Google Patents

Description

9 connected to the fan 10. This B moves through H 1 directly relative to the heated B in the US zone, then in the zone of the plates 4 and 5 turns, back and moves counter-current relative to the heated B at the interface of the US and the compartment 2, dv1

The invention relates to a heat exchange technique and can be used in boiler building.

The purpose of the invention is to increase the efficiency by increasing the active heat exchange surface of the rotor packing of the air preheater.

The drawing schematically shows a regenerative air heater that implements this method.

The regenerative air heater contains a gasket 1, divided into gas and air compartments 2 and 3 of sealing No. 1 with sectors in the form of two pairs of radial plates 4-7 installed above and below the gasket 1, each sector being provided with an opening 8 for supplying sealing air and a port 9 for supplying it to the inlet of the air compartment 3. An opening 8 for supplying sealing air is placed between the plates 6 and 7 of the lower sealing sector, and a nozzle 9 for supplying sealing air is located between the plate 7 of the lower sealing sector and gas compartment 2.

An opening 8 for supplying sealing air is in communication with the atmosphere, and a pipe 9 for supplying this air is connected to the air compartment 3 via a blower fan 10,

The air heater on the proposed method of heating the air works as follows.

The heat exchange gasket 1 enters the gas compartment 2, where it receives heat from the mountains of its flue gases, then into the air edema 3, where it heats the air supplied by the fan 10, the heat exchange process is provided

In this case, sealing B heats up and warms up the cold part of H 1. Then sealing B is fed to fan 10. Passage through H 1 sealing B prevents flow B from compartment 3 to compartment 2 ”1 s, p. f-sh., t un.

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rotation of the packing 1 and constant iodine and removal of gas-air environments.

Due to the difference in air and flue gas pressures, air flows from airway compartment 3 to gas compartment 2, besides, air leaks from air compartment / i 3 to ambient air and air flows from environment to gas compartment 2. , there is a transfer of air from the air compartment 4 to the gas compartment 2.

Air overflows can reduce the efficiency of using heat exchanger packings and increase energy waste on driven machines.

To reduce air flow from the atmosphere into the sealing sector, through the opening 8 between the plates 7 and 8, sealing air is supplied, moving under the action of a vacuum created in the inlet 9 of the inlet connected to the fan 10.

This air initially moves through the gasket 1, which is straight through the heated air, in the area of the sealing sector, then turns back in the area of the plates 4 and 5 and moves countercurrently relative to the heated air at the junction of the sealing sector and the gas compartment 2 during the movement of the sealing air. before entering the pipe 9, this air warms up the cold part of the gasket, which reduces its corrosion. Then the sealing air is supplied to the fan 10. The passage through the rotor gasket 1, sealing air prevents the flow of heated air from the compartment 3 to the gas compartment 2.

The supply of sealing air directly from the atmosphere to the area of the gasket 1, located between the plates 4-7, ensures its involvement in active heat exchange with the sealing air, which ultimately through the fan 10 enters the compartment 3 and further to the consumer. All of this improves overall efficiency by increasing the active heat transfer surface of the packing while protecting it from corrosion.

Claims (2)

1. A method of heating air by supplying an electric current through a heat-exchanging gasket of a regenerative rotating air preheater of heated air and a cooled gas flowing in the air and gas separator. respectively, as well as removal of the sealing air, which is passed through first, and then opposite to the heated air through one of the said compartments and the sealing sector between them and then directed to the air section, characterized in that In order to increase the efficiency by increasing the size of the active heat-exchanging surface of the gasket, the continuous sealing air is passed through the sealing sector, and a part 15 of the heated air is taken from it. aemogo air countercurrently and - through the gas compartment. 2. Pop-up method 1, which is also distinguished by the fact that sealing air into the sealing sector is brought directly from the atmosphere.