SU987295A2 - Regenerative rotary air heater - Google Patents

Description

(54) REGENERATIVE ROTATING AIR HEATER

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. The invention relates to power engineering, in particular to regenerative rotating pre-heaters, and can be used in boiler units of thermal power plants.

A regenerative rotary air heater is known that contains a rotor installed in the housing and end sealing plates separating the housing into gas and flue compartments, and a recirculation pipeline with an injection and suction nozzle, the latter of which adjoins the end plate l.

However, this regenerative air preheater does not ensure complete recirculation of one heat transfer agent and, therefore, there is an anatomic mutual flow of both heat transfer agents.

According to the main-auth. St. No. 798419, a known regenerative rotary air preheater containing a rotor and a face mounted in the housing

sealing plates separating the body into the gas and air compartments, and a recirculation pipe with an injection and suction nozzle, the last of which is adjacent to the end plate. An additional compacted plate is installed on the side of the suction nozzle, the latter being installed hot on the side of the rotor at the entrance to the air chamber G2 3.

However, the known air heater has a limited air suction from the air compartment into the gas one only on the cold side of the rotor, but this also requires a corresponding increase in its supply and additional load on the blower fan.

The aim of the invention is to reduce the flow of heat exchanging media.

The goal is achieved by the fact that the regenerative rotating air preheater is provided with an additional end sealing plate with a purge pipe communicating with the atmosphere that is installed against the suction pipe at the opposite end of the rotor. The drawing shows a part of the sweep of the side surface of the rotor in the transition zone of the rotor chambers from the gas compartment to the air and the directions of movement of the rotor and the flow of gas and air. The regenerative rotating air preheater includes a housing 1 in which a rotor 2 and end sealing plates 3 and 4 are mounted opposite each other on opposite sides of the rotor 2, fixed on the radial jumpers S and 6 of the housing 1 and separating the latter to a gas 7 and an air 8 compartments. In the air osfceKe 8 of the housing 1 next to the sealing plate 3, an additional sealing plate 9 is installed so that the gap between these plates forms the sector slit 1O. The sealing plates 3 and 9 along the perimeter of the sector slit 10 are adjoined by a suction nozzle 11 of the recirculation pipe 12, the nozzle 11 is made in the form of an adapter inserted through the radial jumper 5 and the body 1 beyond the limits of the latter. The recirculated 5 piping 12 through the adjustable valve 13 is connected to the discharge pipe 14, which is led out into gas from section 7 on the same side of housing 1. The rotor 2 is divided by radial baffles 15 into sectoral chambers 16 for accommodating the rotor packing. pipe 18, communicated with the atmosphere, installed against the suction pipe 11 on the opposite end of the rotor 2. The pipe 18 is provided with a valve. The proposed heater works as follows. When the rotor 2 rotates, its chambers 1 move from the gas compartment 7 to the dead zone between the sealing plates 3 and 4. In this position, the flue gases containing ash and other solid particles of abrasive dust are still in chambers 16 of the rotor 2. Upon further movement of the chambers 16 of the rotor 2, each of them simultaneously opens through the sector slit 10 to the suction nozzle 11 of the recirculation pipe 12 (on the hot side of the rotor 2 via the blowing port 18 connected to the flap 19 with the atmosphere) on the cold side of the rotor 2 Due to the resulting the pressure difference atmospheric air through the blowing rod 18 rushes into the chambers 16 and, passing through their packing, displaces the flue gases and abrasive particles of ash and dust through the sector slit 10, sucking patrubo 11 to the recirculation pipe 12 and the discharge pipe 14 to the gas compartment 7. Atmospheric air entrainment into the gas compartment through these channels and cooling of the rotor packing is prevented by appropriate adjustment of the flaps 13 and 19, and air leakage into the gas compartment 7, through the gap between the front pack - lotnital plates. 3 and 4 and the ends of the rotor 2, is carried out by atmospheric air entering through the purge port 18. The chambers 16 of the rotor 2, when leaving the zone of the nozzles 11 and 18, fall into the dead zone between the additional end sealing plates 9 and 17, which eliminates the displacement of smoke gases into the air compartment 8 and air leakage from this compartment through the sector slit 10 to the exhaust port 11 of the recirculation pipe 12 or through the gasket 16 of the rotor 2 chambers through the same channel. Then the camera 16 of the rotor 2. at the same time, on both sides, they are opened into the air compartment 8 and the flow of air supplied for heating rushes through them. This embodiment of the regenerative rotary air heater completely eliminates air leaks from the air compartment into the gas through the gaps between the ends of the rotor and the front i sealing plates due to the leakage of atmospheric air coming from the purge port. Besides, in . the air compartment additionally enters the atmospheric air, by which flue gases were forced out of the rotor chambers. This significantly reduces the load of the blower fan and the energy consumption for its operation, which increases the efficiency of the heater. invention formula Regenerative rotary air preheater according to author. St. NO 798419.

This is so that, in order to reduce the flow of heat-exchanging media, it is equipped with an additional end sealing plate, with a purge pipe connected to the atmosphere, installed against the exhaust pipe on the opposite end of the rotor.

Sources of information taken into account in the examination

1 Patent of Germany No. 1033631, cl. 24 K 4/02, published 1958.

2. USSR author's certificate number 798419, cl. F 23 I, 15 / O2, 1976.

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Claims (1)

Claim Regenerative rotating air heater according to ed. St. No. 798419. 5 987295 on the basis of the fact that, in order to reduce the flow of heat-exchanging media, it is equipped with an additional end sealing plate, with a purge pipe in communication with 5 with the atmosphere installed against the suction pipe at the opposite end of the rotor .