TH51547B - Fluidized bed furnaces and waste treatment methods - Google Patents

Abstract

DC60 (12/12/12) This invention reveals a unique waste treatment technique that consists of blowing fluidizing gas from around the mixing chamber (29) to form a fluid region. idization Fluidization The first region (15) with the degree of fluidization of the fluidized particles. which is set to such a degree that waste (18) can accumulate on the fluidized particles (12) while blowing the fluidized gas between the first fluidization region. (15) and opposite wall (25) at higher flow velocity to create a second fluid region (16) with a degree of The fluidization of the fluidized particles (12) is higher than that of the first fluidized region (15), where the fluidized particles (12) are mixed with waste (18) to produce waste gases (18); and feed waste (18) from the side wall of the feed side (24) onto the fluidized bed (14) to allow the waste (18) to accumulate on the fluidized area. the first fluidization region (15) while allowing the accumulated waste (18) to move into the second fluidization region (16) step by step. Only contains: blowing Fluidizing gas gas) from around the mixing chamber (29) to form a fluidization region. Fluidization The first region (15) with the degree of fluidization of the fluidized particles. This is set to such a degree that waste (18) can accumulate on the fluidized particles (12) while blowing the fluidized gas between the first fluidization region. (15) and opposite wall (25) at higher flow velocity. to create a second fluid region (16) with a level of The fluidization of the fluidized particles (12) is higher than that of the first fluidized region (15), where the fluidized particles (12) are mixed. Combine with waste (18) to waste gaseous (18); and feed waste (18) from the side wall section of the feed side (24) onto the fluidized bed (14) to allow the waste (18) to accumulate on the fluidized area. Steep the first area (15) while making waste. The accumulated (18) move into the second fluidization region (16) step by step:

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: EDIT 7/04/2016 1. fluidize bed furnace for heating waste to extract gas. That can burn From that waste It consists of: fluidizable particle that is fluidized bed to provide a Overheating with waste; The furnace body has a bottom wall that supports the fluidized particle from under it, and one side wall rises from the bottom wall. Where the bottom wall has the mixing outlet in position Tilted away from the center position of the bottom wall in a specific direction To release matter that cannot be burned Burns in waste And carbide obtained from waste heating Together with part of the particle That can be fluidized And the upper surface of the bottom wall is tilted to go down into the mixing hole. In order to allow the fluidized particle to fall to the upper surface of the bottom wall through the discharge channel; The gas feeder for blowing fluidizing gas from the bottom wall of the furnace body to the Fluidized particles to fluidize particle that can fluidize; The waste feeder is provided for feeding the waste from the feeding side of the side wall located on the On the same side as the mixing outlet According to the center position of the bottom wall To the upper Fluidized bed adjacent to the side wall portion of the feed side. This causes the waste on the fluidized bed to move. To the opposite part of the side wall on the opposite side to the centripetal discharge channel Of the bottom wall; A group of thermometers installed above the fluidized bed; And the air feed section for the air above the fluidized bed, where: The gas feeder is adjusted to blow the fluidized gas from around the mixing chamber to create a fluidization area. First with the degree of fluidization of a fluidized particle It is set in such a way that the waste can accumulate on the fluidized particle while blowing the fluidized gas between the first fluidization area. And the opposite side wall at greater flow speed than that of the fluidized gas to be blown in the first fluidization region to create the second fluidization region. With the degree of fluidization of a fluidized particle Higher than in the first fluidization region Where the fluidized particle will travel In a form similar to convection and mixing with the waste to the waste silicate gas: and the waste feeder is adjusted to feed the waste from the side wall section of the feeder side to the Fluidized bed to allow waste to accumulate on the first fluidization area. While making waste The accumulator moves into the second fluidization region step by step. The thermometer groups were positioned differently over the second fluidization region; And the air feed part feeds air above the first fluidization area according to the specified value of Each group of thermometer 2. The fluidized bed furnace as specified in claim 1, where the waste feeder is adjusted so that the waste is pushed back. In such a way that it is quite horizontal from the side wall of the input side To waste accumulated on the first fluidized seisan area Causing waste to accumulate on the area The first fluidized bed moves into the second fluidized bed zone step by step 3. The fluidized bed furnace as specified in claim 1 or 2, which consists of a section Enter Carbide For the separation of carbides from the mixtures of non-combustible matter, carbides and fluidized particles are released from the mixing chamber. And return the carbide that was separated Return to the fluidized bed from the side of the side wall of the opposite side 4. The fluidized bed furnace as specified in any of the clauses 1 to 3. Where the gas feeder is adjusted to blow the fluidized gas in the first fluidization region at speed In a flow corresponding to the condition in which Uo / Umf ranges from 1 to less than 2 and blows fluidized gas. In the second fluidization region at the flow velocity corresponding to the condition Uo / Umf ranges from 2 to less than 5, where Umf is the lower fluidization speed. Which is speed The lowest flow of the fluidized gas to be blown for fluidized, the fluidized particle, and Uo is the average flow velocity across the fluidized gas cross-section 5. The fluidized bed furnace as described in any of Claims 1 through 4, consisting of a sand recirculating device. For separating fluidized particles from the mixture Of non-combustible matter, carbides and fluidized particles The discharge chamber is released from the mixing chamber and returns the separated fluidized particles back to the furnace body. 6. Fluidized bed furnace as specified in claim 5. Where the sand circulating device The fluidized particles that have been separated from the mixture are returned to the waste deposited on First fluidization area 7. Follow the fluidized bed sintering as specified in any of the clauses 1 to 6, where the furnace body is shaped in a plane view. Whose magnitude in a direction along the width perpendicular to the direction The impulse in which the waste is pushed by the waste feeder is equal in the direction of thrust. 8. Fluidized bed furnace as specified in claim 7 where the waste feeder consists of A pusher with a push surface that extends in a wide direction. And drive unit For moving the pusher back and forth in a direction parallel to the pushing direction so that the pushing surface of the The pusher can simultaneously push the waste onto the fluidized bed. Each other by area across the entire width Of the surface for pushing 9. Waste treatment method for heating waste to extract combustible gas. From that waste Which includes: preparation process Of a fluidized bed furnace preparation containing particles capable of Fluidized bed to heat waste, furnace body with bottom wall That supports particles that can be fluidized from underneath it And one side wall rises from the wall below, with the bottom wall having the mixing outlet in a tilted position. The center of the bottom wall in a specific direction To release non-combustible matter in waste And carbides that are produced by heating the waste Together with part of the fluidized particle, and the top surface of the bottom wall is tilted to go down to the mixing channel in order to allow the fluidized particle to fall on Top surface of the bottom wall Through the mixing channel; Process of fluidization area of fluidized gas blowing From the area of the bottom wall Of the furnace body around the discharge compartment of the mixture to the fluidized particle To create an area First fluidization With the degree of fluidization of a fluidized particle It is set to such a degree that the waste can accumulate on the fluidized particle while blowing the fluidized gas between the first fluidization area. And the opposite part of the side wall On the opposite side of the mixing chamber According to the center position of the wall at a higher flow velocity than that of the fluidized gas to be blown in the first fluidization region. To create an area Secondary fluidization with a higher degree of fluidization of the fluidized particle. In the first fluidization area; And the gasification process of the waste entry from the input side of the side wall located On the same side as the mixing chamber It is compared with the center position of the bottom wall to the upper fluidized bed area adjacent to the side wall of the feed side. Causing waste to be accumulated on First fluidization area While causing the accumulated waste to move into the fluidization area The second area, step by step, and exposed to silicate gas; And the process of entering air that is fed over the fluidized bed where, in the preparation stage, the fluidized bed kiln consists of a group of thermometer and The air feed section is prepared. The thermometer groups were arranged in different positions over the flue region. First Dissation And the air feeder that feeds air over the first fluidization area; And in the process of entering air The air feeder feeds air over the fluidization area. The first area according to the specified value of each group of the thermometer. In order to achieve the specified internal temperature of the furnace 1 0. Waste treatment methods as specified in claim 9, wherein gasification process Consists of pushing new waste In such a way that it is quite horizontal from the side wall Of the input side To the waste accumulated on the first fluidization region, causing the waste accumulated on the first fluidization area to enter the second fluidization region Step-by-step and exposed to silicate gas 1 1. Treatment methods for the waste specified in Clause 9 or 10, which consist of a procedure. Of separating carbides from a mixture of non-combustible matter, carbides and particles That can be fluidized, the mixture is released from the discharge channel And return the carbide that was separated The fluidized bed is returned from the side of the side wall on the opposite side 1 2. The waste treatment method specified in any of Clause 9 to 11, where the gas The fluidization is blown in the first fluidization region at the flow velocity corresponding to the condition Uo / Umf ranges from 1 to less than 2, and is blown in the fluidization region. Second At the flow velocity corresponding to the condition Uo / Umf ranges from 2 to less than 5, where Umf is the lowest fluidization speed. Which is the lowest flow velocity of the fluidized gas to be blown. To fluidize a particle that can be fluidized, and Uo is the average flow velocity across its cross-section. Of fluidized gas -------------------------------------------------- --------------- 1. A fluidized bed furnace for heating wastes to extract gases. That can be burned from that waste Which consists of The fluidizable particle is fluidized bed to provide a Hot with waste The furnace body has a bottom wall that supports the fluidized particle from under it, and one side wall rises from the bottom wall. Where the bottom wall has the mixing outlet in position Tilted away from the center position of the bottom wall in a specific direction To release substances that cannot be burned Burns in waste And carbide obtained from waste heating Together with part of the particle That can be fluidized And the upper surface of the bottom wall is tilted to go down into the mixing hole. In order to allow the fluidized particles to fall to the upper surface of the bottom wall through the mixing outlet, the fluidizing gas dryer from the bottom wall. Of the furnace body to Fluidized particles to fluidize particle that can fluidize; The waste feeder is provided for feeding the waste from the feeding side of the side wall located on the Same side as the mixing tube According to the center position of the bottom wall To the upper Fluidized bed adjacent to the side wall portion of the feed side. This causes the waste on the fluidized bed to move. To the opposite part of the side wall on the opposite side of the hair outlet in the center position Of the bottom wall; Where, by the gas feed, it is adjusted to blow the fluidized gas from the secondary discharge chamber to create the first fluidization area with the fluidization level of the fluidized particles. Iced It is set in such a way that the waste can accumulate on the fluidized particle while blowing the fluidized gas between the first fluidization area. And the opposite side wall at greater flow speed than that of the fluidized gas to be blown in the first fluidization region to create the second fluidization region. With the degree of fluidization of a fluidized particle Higher than in the first fluidization region Where the fluidized particle will travel In a form similar to convection and mixing with the waste to the waste silicate gas; And the waste feeder is adjusted to feed the waste from the side wall section to the Fluidized bed to allow waste to accumulate on the first fluidization area. While making waste The accumulator moves into the second fluidization region step by step.