SU877245A1 - Regenerative air preheater - Google Patents

Description

The invention relates to heat transfer technology and can be used in thermal installations.

A known regenerative air heater comprising a housing filled with a layer of granular material * A disadvantage of the known air heater is the low intensification of heat transfer during fluidization of a layer of granular material.

The purpose of the invention is the intensification of ¹⁰ heat transfer by fluidizing a layer of granular material.

This goal is achieved by the fact that the casing is made in the form of two cylindrical shells of different diameters * connected by a shell in the form of a truncated cone facing down with a smaller base, and the height of the layer of granular material is 0.5-0.6 of the height of the casing.

The drawing schematically shows the proposed air heater,

The air heater comprises a rotating casing 1, filled with a layer 2 of granular material, and the housing 1 is made in the form of two cylindrical shells 3 and 4 of different diameters connected by a shell 5 in the form of a truncated cone * facing down with a smaller base, and the height of the layer 2 of granular material is 0.5 -0.6 from the height of the housing 1.

The lower and upper ends of the housing 1 are equipped with grids 6 and 7 to hold the granular material within the housing 1. The ducts 8 and 9 of the supply of heating gas and heated air are connected to the lower grill 6, and the boxes of 10 and 11 of the heating gas are connected to the upper grill 7 and heated air, respectively. In the boxes 8 and 9 installed gates 12 to overlap part of the cross section of the housing 1. In boxes 10 and 11, hoppers 13 and 14 are installed for collecting the ablation of the time section.

grains of granular material.

The air heater operates as follows.

The housing 1 rotates, alternately passing through the gas and air cavities. In a duct 8, a heating gas is introduced into the layer 2 of granular material through a $ 6 grate, which fluidizes the material and heats it. Then the gas is removed through the grate 7 into the duct 10. When the housing 1 is rotated, the heated material enters the air cavity, where air is supplied from the duct 9 through the grate 6, which fluidizes the material and heats up from it. Then the heated air through, 5 grate 7 enters the box And,

The design of the proposed air heater provides the necessary flow area for gas and air flows with a minimum loss of 20 vapor and providing a fluidization layer 12 of the granular material, characterized by high heat transfer. In addition, efficient operation under changing loads is ensured. With a significant reduction in the load (up to 70-75% of the nominal), the optimal flow rates of gas and air are ensured by blocking part of the passage section of layer 2 using gates 12.

Thus, the proposed air heater provides the passage of high-intensity heat transfer during fluidization of a layer of granular material.

Claims (1)

(54) REGENERATIVE AIR HEATER The invention relates to heat trapping technique and can be used in heat installations. A regenerative air preheater is known, comprising a body filled with a layer of granular material P2. A disadvantage of the known air pre-heater is the low intensification of heat exchange during fluidization of the layer of granular material. The purpose of the invention is to intensify heat exchange by fluidizing a bed of granular material. This goal is achieved by the fact that the casing is made in the form of two cylindrical shells of different diameters, connected by a casing in the form of a truncated cone, facing the smaller base downwards, and the height of the layer of granular material is 0.5-0.6 of the casing height. The drawing shows schematically the proposed heater, section. The air heater contains a rotating body 1 filled with a layer 2 of granular material, and the body 1 is made in the form of two cylindrical shells 3 and 4 of different diameters connected by the shell 5 in the form of a truncated cone facing the smaller base downwards, and the height of the layer 2 of granular material is 0, 5-0.6 of the height of the housing 1. The lower and upper ends of the housing 1 are equipped with grids 6 and 7 for holding granular rubbed within the housing 1. To the lower grille 6 are connected the boxes 8 and 9 supplying heating gas and heated air, and to The upper grille 7 is connected to a box - 10 and 11 to remove heating gas and heated air, respectively. In the boxes 8 and 9, gates 12 are installed to block part of the cross section of the housing 1. Hoppers 13 and 14 are installed in ducts 10 and 11 for collecting the ash particles of granular material. 3 Air heater works as follows. Housing I rotates alternately through the gas and air cavities. A heating gas is supplied through the duct 8 through the grate 6 to the slab 2 of granular material, which fluidizes the material and heats it. The gas is then removed through the grill 7 into the duct 10. When the housing 1 rotates, the heated material enters the air cavity, where air is supplied from the duct 9 through the grill 6, which fluidizes the material and heats up from it. Then the heated air through the grill 7 enters the duct 11. The design of the proposed air heater provides the necessary flow area for hectares and recoil flows with minimal loss of steam and providing fluidization of the layer 2 of granular material characterized by high heat transfer. In addition, efficient operation with varying loads is ensured. With a significant reduction in load (up to 70- .75% of nominal), the optimal gas and air flow rates are provided by blocking part of the pro2 with the help of an effective cross section of the beers 12. Thus, the 1st air heater provides high-intensity heat exchange during fluidization of a layer of granular material. Claims of the Invention Regenerative air heater comprising a rotating body filled with a layer of granular material, characterized in that, in order to intensify heat exchange by fluidizing the layer of granular material, the body is made in the form of two cylindrical shells of different diameters connected by a truncated cone to one side of the body, facing less minor casing. and the height of the layer of granular material is 0.5-0.6 of the height of the body. Sources of information, taken into account during the examination 1. USSR author's certificate No. 70195, cl. F 23 L 15/02, 1947.