SU1288449A1 - Regenerative air heater - Google Patents

Abstract

Invention m. used in fuel combustion installations, such as boilers. The invention allows to increase the thermal efficiency of the air preheater by intensifying heat exchange. For this purpose, an additional guide vane device 14 is installed in the inlet air nozzle 5. The oblast hollow vanes 11 are made in the form of thermosyphons placed perpendicular to the longitudinal axis of the rotor 9, the Bandage 13 of the rotor 9 is hollow and communicated with the cavity of thermosyphons. The outer surface of the bandage 13 is equipped with additional blades 15 located in the channel 4 dp passage of flue gases. The vapors of the fluid heated by the flue gases are moved to the central parts of the thermosyphons and are condensed, heating the air. Due to this, additional heat is utilized. The radial location of the thermosyphons allows the use of centrifugal force to move the condensate to the evaporation zone. 2 Il. (Ls

Description

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The invention relates to a heat exchange technique and can be used in fuel combustion installations, for example, boiler units.

The purpose of the invention is to increase thermal efficiency by intensifying heat transfer.

Fig, 1 shows an air heater, a longitudinal section; in fig. 2 - the same cross section.

The regenerative air heater comprises a housing 1 divided by a partition 2 into channels 3 and 4 for the passage of air and flue gases connected to inlet and outlet air and gas nozzles 5-8, respectively, and placed in a housing I rotor 9 with a drive 10 formed by a crown hollow blades 11, made in the form of thermosyphons, fixed respectively on the hub 12 and rotor 9 banding 13; In the inlet air nozzle 5 a guide vanes 14 are mounted. Thermosiphons of the blades 11 are arranged perpendicular odolnoy rotor axis 9, and its band 13 is provided on the outer surface of the crown of the additional vanes 15 disposed in the settee 4 for flue gas passage is made hollow with a cavity 16 and communicates with the cavity 17 thermosyphons. Between the bandage 13 and the partition 2 labyrinth seals 18 are installed,

Regenerative air heater works as follows.

The rotor 9 is rotated from the drive 10, Atmospheric air and flue gases through the corresponding inlet pipes 5 and 7 enter channels 3 and 4 and due to the profile blades 11 are moved into the outlet more often pipes 6 and 8 for heated, air and cooled flue gases respectively. Under the action of heating from flue gases, a liquid, such as water, in the thermosyphons of the blades 11 evaporates and its vapors move to the central parts of the thermosyphons located in channel 3 and washed by cold air. In this case, the vapors are condensed, the air is heated, and the condensed centrifugal force is directed into the cavity 16 bans.

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Sales 13, This process takes place continuously and ensures the transfer of heat from the flue gases to the blades II, condensate in the cavity 16 of the bandage 13 and ultimately to the air. Due to this, additional heat, usually discharged into the pipe, is utilized. The radial location of the thermosyphons contributes to the improvement of their mode of operation by using the centrifugal force acting on the condensate to move it to the evaporation zone, which intensifies the heat exchange. The flue gases move due to the impact on their flow of additional blades 15 located in channel 4. The efficiency of the regenerative air preheater is increased by making the band 13 hollow with a cavity 16 serving to place the condensate and heating it with a stream of flue gases, Between the band 13 and the partition 2, labyrinth seals 18 are installed to reduce the mutual flow of air and flue gas.

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Claims (1)

Invention Formula A regenerative air heater containing a case divided by a partition into channels for the passage of air and flue gases, connected to inlet and outlet air and gas nozzles, and placed in the case a rotor formed by a crown of shaped hollow blades made in the form of thermosyphons, 40 fixed respectively on the hub and rotor band, characterized in that, in order to increase thermal efficiency by intensifying heat exchange, it 45 additionally contains a guide vane apparatus installed in the inlet air nozzle, thermo-siphons of the blades are placed perpendicular to the longitudinal axis of the rotor, and 50, the bandage of the latter is provided on the outer surface with a crown of additional blades located in the channel for the passage of flue gases, is hollow and communicated with the cavity 55 thermosyphons thirty Invention Formula A regenerative air preheater containing a case divided by a partition into channels for the passage of air and flue gases connected to supply and exhaust air and gas nozzles and placed in the case a rotor formed by a crown of shaped hollow blades fixed respectively on the hub and rotor bandage, characterized in that, in order to increase thermal efficiency by intensifying heat exchange, it additionally contains a guide vane apparatus installed in the inlet air nozzle, the thermo siphons of the blades are placed perpendicular to the longitudinal axis of the rotor, and the bandage of the latter is provided on the outer surface with a crown of additional blades located in the channel for the passage of flue gases, is hollow and communicated with the cavity thermosyphons, Editor G, Volkova Compiled by G. Petrov Tekhred L.OleynikKorrektor V.But Ha Order 7791/35 Circulation 495 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 q3U8.2