SU309212A1 - HO-TECHINNES "5 '-; BIOTECA - Google Patents

Description

The invention relates to the heating of air and can be applied in the energy sector, for example in boiler plants.

Regenerative rotary air preheaters are known, comprising a housing with inlet and outlet gas and air nozzles and a rotor divided by blind partitions into sectors with heat exchanging packing.

A disadvantage of the known air preheaters is that when working on dusty flue gases, the packing is clogged with ash and the work of the air preheaters is impaired, and for careful manual or mechanized cleaning it is necessary to turn them off and disassemble.

The purpose of the invention is to improve the cleaning efficiency of the gasket from the ash drift.

To achieve this goal, a gas-tight partition is installed perpendicular to the end of the rotor in the gas outlet nozzle, which divides the nozzle into two compartments, each with gates, and a sector-mounted hinge at the upper end of the partition. The use of the inventive air preheater allows the gasket to be blown in by briefly increasing the gas flow rate therein to the rate of self-blowing.

FIG. 1 shows an air heater in longitudinal section; in fig. 2 - bottom view. The regenerative rotary air preheater contains a rotor 1, divided by cross section by deaf radial partitions 2 into sectors 3 isolated from each other. Inside each sector there is a heating pad 4 made of a steel corrugated sheet. The rotor / unit is installed inside the fixed cylindrical body 5. The upper and lower ends of the body 5 are divided by oppositely mounted sector plates 6 into two parts. In one of the parts of the housing 5 on the cover

an air inlet 7 is mounted through which cold air passes, and in the other there is a gas outlet nozzle 8 through which the combustion products pass. A gas-tight partition 9 is installed radially and perpendicularly to the rotor face / gas fitting 8, made in the form of a continuous bridge between the walls of the fitting 8. The partition 9 separates the fitting 8 into two compartments. At the top end of the septum

A sector-shaped flap 10 is securely fixed. The side of the flap 10, which is adjacent in working position to the end surface of the rotor 1, alternately covers the corresponding sectors 3 as the rotor rotates /. In each case, the screening by turning the gates 11 and the sector flap 10 is carried out by means of t g connected to individual drives 12.

The air heater works as follows. The rotor 1 of the regenerative rotary air heater rotates inside the housing 5. The cold air passes through the air inlet 7 in the cover of the housing 5, and the hot gases through the gas inlet 8. Sector plates 6 and deaf radial baffles 2 of the rotor / air flow separate from the gas. The gasket 4, alternately moving through the gas and air streams, transfers heat from the gases to the air, whereby the gases are cooled and the air is heated. At the same time, the ash deposits of the gasket 4 are contaminated with ash. To clean the rotary of the gasket 4 of the rotor 7 when the boiler is operating, the actuator 12 turns the sector flap 10 into a horizontal working area. The sector valve Su overlaps a part of the rotor I end area in such a way that it eliminates non-gas from the left part of the gas nozzle 8 at the right time when the deaf partitions 2 are not above the gas-tight partition 9. Gates 11 in the right compartment

gas nozzle 8 is moved to the closed position. This achieves a decrease in the flow area for the gas stream and an increase in the velocity of the gases in the gasket 4. At the same time as the gas flow rate increases, the kinetic energy of the ash particles in the gas stream increases. When the speed of self-blowing is reached, the force of inertia of the ash particles is higher than the force of their adhesion to the surface of the heating pad 4. Due to this, ash deposits are cleared.

Item invented

A regenerative rotary air heater, for example, for boilers, comprising a housing with inlet and outlet gas and air nozzles and a rotor divided by hollow partitions into sectors with heat exchanging gasket, in order to increase the efficiency of cleaning the gasket from the ash drift in the gas A gas-tight partition is installed perpendicularly to the end of the rotor in the radial direction, the partition; the branch pipe into two compartments, in each of which there are gates, and at the upper end septum sectoral hinged flap.

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