CN209230313U - A kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat - Google Patents

Abstract

The utility model discloses a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat, including belt-cooling machine, the second air supply device, boiler electrification component and flue gas processing device；Belt-cooling machine prolongs its conveying direction and is divided into belt-cooling machine high-temperature region, belt-cooling machine low-temperature space and belt-cooling machine cooling zone；The outlet flue of belt-cooling machine high-temperature region passes through the air inlet port of piping connection boiler electrification component；The smoke inlet of the air outlet connection belt-cooling machine high-temperature region of boiler electrification component；The outlet flue of belt-cooling machine low-temperature space is connected to belt-cooling machine high-temperature region by the first air supply device；The output port of second air supply device is connected to belt-cooling machine low-temperature space；The output port of belt-cooling machine cooling zone is connected to by pipeline with flue gas processing device.The utility model is heated by the way that gas and low-temperature flue gas that belt-cooling machine low-temperature space preheats are transported to belt-cooling machine high-temperature region again to belt-cooling machine low-temperature space input air；The flue gas of high temperature boiler electrification component is transported to again to be used to generate electricity；To improve the generated energy of boiler electrification component.

Description

A kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat

Technical field

The utility model relates to belt-cooling machine tail portion cigarettes in gas-recycling plant field more particularly to a kind of sintering waste heat generating Gas circulator.

Background technique

Sinter cooler is the technique of sintering, cooling unification；When determining design, because blast furnace uses on belt feeder Material, it is desired to supply cold sinter；So sinter cooler must cool down；And directly cooling is carried out to sinter cooler and will cause heat The waste of energy；Mostly the fume afterheat that high temperature generates is collected in sinter cooler cooling procedure now thus and is used for boiler Power generation；The utilization rate that thermal energy not only can be improved can also reduce production cost；But utilizing sinter cooler high-temperature flue gas When being generated electricity can usable high-temperature flue gas only in the front end of sinter cooler；And in the rear end cooling zone temperature of sinter cooler It is lower there is no use value substantially；And to be directly used in boiler generating efficiency low or even basic for the flue gas in sinter cooler low temperature area Boiler power generation cannot be carried out using the flue gas in sinter cooler low temperature area；The flue gas of sinter cooler is utilized to be used in the prior art Generated energy is few when boiler generates electricity, and contains a large amount of harmful substances in the flue gas generated to sinter cooler, if being directly discharged into atmosphere It will cause environmental pollution.

Utility model content

To solve technical problem present in background technique, the utility model proposes belt-cooling machines in a kind of sintering waste heat generating Generated energy when generating electricity using the waste heat flue gas of sinter cooler for boiler can be improved in tail flue gas circulator, and can be to most The flue gas generated eventually carries out purified treatment, and free of contamination gas is discharged.

The utility model proposes a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat, including belt-cooling machine, First air supply device, the second air supply device, the first flue gas cover, the first chimney breast, collection conduit, boiler electrification component, second Flue gas cover, the second chimney breast, third flue gas cover, third chimney breast, the 4th air supply device and flue gas processing device；

Belt-cooling machine prolongs its conveying direction and is divided into belt-cooling machine high-temperature region, belt-cooling machine low-temperature space and belt-cooling machine cooling zone；

The side of belt-cooling machine high-temperature region is equipped with the first plenum chamber；First plenum chamber is connected to belt-cooling machine high-temperature region；First send The one end of air compartment far from belt-cooling machine is equidistantly equipped with the first air-supply port；First air-supply port is tightly connected first by pipeline The outlet port of air supply device；

First flue gas cover is located remotely from one end of the first plenum chamber；First flue gas cover is mounted on belt-cooling machine, and with cold The connection of machine high-temperature region；First flue gas cover is tightly connected the first chimney breast；First chimney breast is tightly connected collection conduit；

The side of belt-cooling machine low-temperature space is equipped with the second plenum chamber；Second plenum chamber is connected to belt-cooling machine low-temperature space；Second send The one end of air compartment far from belt-cooling machine is equidistantly equipped with the second air-supply port；Second air-supply port is tightly connected second by pipeline and send The outlet port of wind apparatus, for outside air to be conveyed into belt-cooling machine low-temperature space；

Second flue gas cover is located remotely from one end of the second plenum chamber；Second flue gas cover is mounted on belt-cooling machine, and with cold The connection of machine low-temperature space；Second flue gas cover is tightly connected the second chimney breast；Second chimney breast is tightly connected the first air supply device Air inlet port；

Third flue gas cover is mounted on belt-cooling machine, and is connected to belt-cooling machine cooling zone；Third flue gas cover is tightly connected third Chimney breast；Third chimney breast is tightly connected the air inlet port of the 4th air supply device；

Flue gas processing device is equipped with the second air inlet port and the second air outlet；Second air inlet port is sealed by pipeline Connect the outlet port of the 4th air supply device；Second air outlet is used to connect the inside and outside atmosphere of flue gas processing device；

Boiler electrification component is equipped with the first air inlet port and the first air outlet；First air inlet port is tightly connected collecting pipe The outlet mouth of pipe in road；First air outlet is tightly connected the air inlet port of the first air supply device by pipeline.

Preferably, third air supply device is installed in collection conduit；Third air supply device is located at the first air inlet port and first Between chimney breast and collection conduit junction.

Preferably, flue gas processing device includes support column, shell, driving device and check valve；Support column connected with outer casing；Outside Shell is equipped with blowdown port；Partition is equipped in shell；Partition connected with outer casing, the first installation bin and second will be divided into shell Installation bin；One end of partition towards the first installation bin is equidistantly equipped with groove；Partition is equipped with venthole；Check valve is mounted on row On dirty port；

First installation bin is connected to the second air inlet port；Rotary shaft and turntable are equipped in first installation bin；Rotary shaft rotation It is mounted in the first installation bin, and extends the first installation bin and the driving device of installation on the shell that is sequentially connected；Turntable edge Flow of flue gas direction equidistantly install on the rotary shaft；Turntable is located in groove close to the edge of partition；On turntable uniformly Equipped with filter hole；Venthole is located remotely from one end of the second air inlet port, for the flue gas in the first installation bin to be flowed into second In installation bin；

Second installation bin is connected to the second air outlet；Spray head, water-supply-pipe, drying layer and activity are equipped in second installation bin Charcoal adsorption layer；

Water-supply-pipe is mounted in the second installation bin, and is located remotely from one end of partition；Spray head is equidistantly mounted on water-supply-pipe On；Water-supply-pipe extended spot shell, and connect external treatment liquid conveying device；The water discharging direction of spray head is towards partition；Drying layer connects Shell is connect, and is located above water-supply-pipe；Activated carbon adsorption layer connected with outer casing；Activated carbon adsorption layer is located above drying layer, and position Below the second air outlet.

Preferably, there is gas treatment liquid in the first installation bin；Distance of the liquid level of gas treatment liquid apart from partition be not small In distance of the rotary shaft apart from partition；Second air inlet port is located at the ullage of gas treatment liquid.

Preferably, partition towards the end face of spray head be inclined surface；The minimum point of the inclined surface of partition is located at venthole.

Preferably, the bottom of the first installation bin is back taper.

In the utility model, the second air supply device is blown into air into belt-cooling machine low-temperature space, and cold air is in belt-cooling machine low temperature Area's preheating；The low-temperature flue gas of air and belt-cooling machine low-temperature space after preheating is transported to belt-cooling machine high temperature by the first air supply device again In area；Air and low-temperature flue gas after preheating are heated in belt-cooling machine high-temperature region is finally transported to boiler power generation from collection conduit For generating electricity in component；The low-temperature flue gas that boiler electrification component generates is transported to belt-cooling machine high-temperature region again by belt-cooling machine high-temperature region Interior high-temperature heating；Gas circulation is formed, high-temperature flue gas is utilized to the full extent, avoids the waste of thermal energy, and improve pot The generated energy of furnace electrification component；Flue gas processing device is transported to the flue gas that belt-cooling machine and boiler electrification component finally generate to carry out Clean free of contamination gas is discharged after processing, protects environment.

In the utility model, the flue gas that belt-cooling machine and boiler electrification component finally generate is transported to outer from the second air inlet port In shell；Driving device drives rotary shaft and turntable rotation；The filter hole that turntable is equipped with rotates in gas treatment liquid when passing through, Processing liquid film is formed in filter hole；The air-flow inputted from the second air inlet port passes through out of filter hole and is passed to the from venthole In two installation bins；The large particulate matter carried in flue gas is contacted with processing liquid film and is left；Final large particulate matter is collected the One installation bin bottom；Flue gas contacts progress neutralization reaction with gas treatment liquid will；Flow into flue gas in the second installation bin and from The gas treatment liquid of spray head sprinkling, which is contacted again, to be handled, and the liquid of whereabouts falls into the first installation bin, in the first installation bin Liquid supplemented；By the desiccation and activated carbon adsorption layer of the flue gas drying layer that gas treatment liquid is handled It is discharged after adsorption treatment；Flue gas is avoided to pollute atmosphere；The large particulate matter of first installation bin bottom is finally from blowdown end Mouth discharge.

Detailed description of the invention

Fig. 1 be the utility model proposes the structure of belt cooler vent flue gas circulating device in power generation by sintered waste heat a kind of show It is intended to.

Fig. 2 be the utility model proposes a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat at flue gas Manage the structural schematic diagram of device.

Fig. 3 be the utility model proposes a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat at A The structural schematic diagram of partial enlargement.

In figure: 1, belt-cooling machine；2, belt-cooling machine high-temperature region；3, the first plenum chamber；4, the first air-supply port；5, the first air-supply dress It sets；6, belt-cooling machine low-temperature space；7, the second air supply device；8, the second plenum chamber；9, belt-cooling machine cooling zone；10, the first flue gas cover； 11, the first chimney breast；12, collection conduit；13, third air supply device；14, boiler electrification component；141, the first air inlet port； 142, the first air outlet；15, the second flue gas cover；16, the second chimney breast；17, third flue gas cover；18, third chimney breast； 19, the 4th air supply device；20, flue gas processing device；201, shell；202, the first installation bin；203, the second air inlet port；204, Partition；205, the second installation bin；206, spray head；207, water-supply-pipe；208, drying layer；209, activated carbon adsorption layer；210, second Air outlet；211, venthole；212, driving device；213, rotary shaft；214, turntable；215, filter hole；216, blowdown port； 217, check valve；218 grooves；21, support column.

Specific embodiment

As shown in Figure 1-3, Fig. 1 be the utility model proposes a kind of sintering waste heat generating in belt-cooling machine tail flue gas circulation The structural schematic diagram of device.

Fig. 2 be the utility model proposes a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat at flue gas Manage the structural schematic diagram of device.

Fig. 3 be the utility model proposes a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat at A The structural schematic diagram of partial enlargement.

Referring to Fig.1-3, the utility model proposes a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat, packet Include belt-cooling machine 1, the first air supply device 5, the second air supply device 7, the first flue gas cover 10, the first chimney breast 11, collection conduit 12, Boiler electrification component 14, the second flue gas cover 15, the second chimney breast 16, third flue gas cover 17, third chimney breast the 18, the 4th are sent Wind apparatus 19 and flue gas processing device 20；

Belt-cooling machine 1 prolongs its conveying direction and is divided into belt-cooling machine high-temperature region 2, belt-cooling machine low-temperature space 6 and belt-cooling machine cooling zone 9；Belt-cooling machine high-temperature region 2, belt-cooling machine low-temperature space 6 and belt-cooling machine cooling zone 9 are sequentially communicated；

The side of belt-cooling machine high-temperature region 2 is equipped with the first plenum chamber 3；First plenum chamber 3 is connected to belt-cooling machine high-temperature region 2；The One one end of plenum chamber 3 far from belt-cooling machine 1 is equidistantly equipped with the first air-supply port 4；First air-supply port 4 is sealed by pipeline Connect the outlet port of the first air supply device 5；

First flue gas cover 10 is located remotely from one end of the first plenum chamber 3；First flue gas cover 10 is mounted on belt-cooling machine 1, and It is connected to belt-cooling machine high-temperature region 2；First flue gas cover 10 is tightly connected the first chimney breast 11；First chimney breast 11 is tightly connected Collection conduit 12；The high-temperature flue gas that belt-cooling machine high-temperature region 2 generates is transported to by the first flue gas cover 10 and the first chimney breast 11 In collection conduit 12, then it is transported to by collection conduit 12 and is used to generate electricity in boiler electrification component 14；

The side of belt-cooling machine low-temperature space 6 is equipped with the second plenum chamber 8；Second plenum chamber 8 is connected to belt-cooling machine low-temperature space 6；The Two one end of plenum chamber 8 far from belt-cooling machine 1 are equidistantly equipped with the second air-supply port；Second air-supply port is tightly connected by pipeline The outlet port of second air supply device 7, for outside air to be conveyed into belt-cooling machine low-temperature space 6；

Second flue gas cover 15 is located remotely from one end of the second plenum chamber 8；Second flue gas cover 15 is mounted on belt-cooling machine 1, and It is connected to belt-cooling machine low-temperature space 6；Second flue gas cover 15 is tightly connected the second chimney breast 16；Second chimney breast 16 is tightly connected The air inlet port of first air supply device 5；Second air supply device 7 is blown into air into belt-cooling machine low-temperature space 6, and cold air is in belt-cooling machine Air after preheating is transported in belt-cooling machine high-temperature region 2 by the preheating of low-temperature space 6 by the first air supply device 5 again；Air after preheating It is heated in belt-cooling machine high-temperature region 2 with low-temperature flue gas and is finally transported in boiler electrification component 14 from collection conduit 12 for sending out Electricity；

Third flue gas cover 17 is mounted on belt-cooling machine 1, and is connected to belt-cooling machine cooling zone 9；The sealing of third flue gas cover 17 connects Connect third chimney breast 18；Third chimney breast 18 is tightly connected the air inlet port of the 4th air supply device 19；

Flue gas processing device 20 is equipped with the second air inlet port 203 and the second air outlet 210；Second air inlet port 203 The outlet port of the 4th air supply device 19 is tightly connected by pipeline；Second air outlet 210 is for connecting flue gas processing device 20 inside and outside atmosphere；The flue gas that belt-cooling machine 1 and boiler electrification component 14 finally generate is transported to flue gas processing device 20 Clean free of contamination gas is discharged after being handled；

Boiler electrification component 14 is equipped with the first air inlet port 141 and the first air outlet 142；First air inlet port 141 is close The outlet mouth of pipe of envelope connection collection conduit 12；First air outlet 142 is tightly connected the air inlet of the first air supply device 5 by pipeline Port.

In a kind of specific work process of belt cooler vent flue gas circulating device in power generation by sintered waste heat of the present embodiment, the Two air supply devices 7 are blown into air into belt-cooling machine low-temperature space 6, and cold air is preheated in belt-cooling machine low-temperature space 6；Again by the sky after preheating The low-temperature flue gas of gas and belt-cooling machine low-temperature space 6 is transported in belt-cooling machine high-temperature region 2 by the first air supply device 5；Air after preheating It is heated in belt-cooling machine high-temperature region 2 with low-temperature flue gas and is finally transported in boiler electrification component 14 from collection conduit 12 for sending out Electricity；The low-temperature flue gas that boiler electrification component 14 generates is transported to belt-cooling machine high-temperature region 2 again by the high temperature in belt-cooling machine high-temperature region 2 Heating；Gas circulation is formed, high-temperature flue gas is utilized to the full extent, avoids the waste of thermal energy, and improve boiler generating set The generated energy of part 14；Flue gas processing device 20 is transported to the flue gas that belt-cooling machine 1 and boiler electrification component 14 finally generate to carry out Clean free of contamination gas is discharged after processing, protects environment.

In a specific embodiment, third air supply device 13 is installed in collection conduit 12；Third air supply device 13 is located at the Between 12 junction of one air inlet port 141 and the first chimney breast 11 and collection conduit；

In work, third air supply device 13 accelerates the efficiency that high-temperature flue gas is transported to boiler electrification component 14.

In a specific embodiment, flue gas processing device 20 includes support column 21, shell 201, driving device 212 and only leads to Valve 217；21 connected with outer casing 201 of support column；Shell 201 is equipped with blowdown port 216；Partition 204 is equipped in shell 201；Partition 204 connected with outer casing 201, the first installation bin 202 and the second installation bin 205 will be divided into shell 201；Partition 204 is towards One end of one installation bin 202 is equidistantly equipped with groove 218；Partition 204 is equipped with venthole 211；Check valve 217 is mounted on blowdown On port 216；

First installation bin 202 is connected to the second air inlet port 203；Rotary shaft 213 and turntable are equipped in first installation bin 202 214；Rotary shaft 213 is rotatably installed in the first installation bin 202, and is extended the first installation bin 202 and be sequentially connected and be mounted on Driving device 212 on shell 201；Turntable 214 is equidistantly mounted in rotary shaft 213 along flow of flue gas direction；Turntable 214 Edge close to partition 204 is located in groove 218；The sealing rotation connection partition 204 of turntable 214；It is uniformly provided on turntable 214 Filter hole 215；Venthole 211 is located remotely from one end of the second air inlet port 203, for by the flue gas in the first installation bin 202 It flows into the second installation bin 205；

Second installation bin 205 is connected to the second air outlet 210；Spray head 206, water-supply-pipe are equipped in second installation bin 205 207, drying layer 208 and activated carbon adsorption layer 209；

Water-supply-pipe 207 is mounted in the second installation bin 205, and is located remotely from one end of partition 204；Spray head 206 is equidistant It is mounted on water-supply-pipe 207；207 extended spot shell 201 of water-supply-pipe, and connect external treatment liquid conveying device；Spray head 206 goes out Water direction is towards partition 204；208 connected with outer casing 201 of drying layer, and it is located at 207 top of water-supply-pipe；Activated carbon adsorption layer 209 connects Connect shell 201；Activated carbon adsorption layer 209 is located at 208 top of drying layer, and is located at 210 lower section of the second air outlet；

In work, the flue gas that belt-cooling machine 1 and boiler electrification component 14 finally generate is transported to outer from the second air inlet port 203 In shell 201；Driving device 212 drives rotary shaft 213 and turntable 214 to rotate；The filter hole 215 that turntable 214 is equipped with is in gas Processing liquid film is formed when rotation is passed through in treatment fluid, in filter hole 215；The air-flow inputted from the second air inlet port 203 is from filtering Pass through in hole 215 and is passed in the second installation bin 205 from venthole 211；The large particulate matter and treatment fluid carried in flue gas Film contact is left；Final large particulate matter is collected in 202 bottom of the first installation bin；Flue gas is contacted with gas treatment liquid in progress It will with reaction；It flows into from the flue gas in the second installation bin 205 and the gas treatment liquid sprayed from spray head 206 are contacted again and carry out Reason, the liquid of whereabouts fall into the first installation bin 202, supplement the liquid in the first installation bin 202；By gas treatment liquid It is discharged after the desiccation of flue gas drying layer 208 and the adsorption treatment of activated carbon adsorption layer 209 of processing；Avoid flue gas Atmosphere is polluted；The large particulate matter of first installation bin, 202 bottom is finally discharged from blowdown port 216.

In a specific embodiment, there is gas treatment liquid in the first installation bin 202；The liquid level distance of gas treatment liquid every The distance of plate 204 is not less than distance of the rotary shaft 213 apart from partition 204；Second air inlet port 203 is located at the liquid of gas treatment liquid Above face.

In a specific embodiment, partition 204 towards the end face of spray head 206 be inclined surface；The inclined surface of partition 204 is most Low spot is located at venthole 211.

In a specific embodiment, the bottom of the first installation bin 202 is back taper；

In work, 202 bottom of the first installation bin of back taper facilitates large particulate matter formation in the first installation bin 202 Mixture discharge.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat, which is characterized in that including belt-cooling machine (1), first Air supply device (5), the second air supply device (7), the first flue gas cover (10), the first chimney breast (11), collection conduit (12), boiler Electrification component (14), the second flue gas cover (15), the second chimney breast (16), third flue gas cover (17), third chimney breast (18), 4th air supply device (19) and flue gas processing device (20)；

Belt-cooling machine (1) prolongs its conveying direction and is divided into belt-cooling machine high-temperature region (2), belt-cooling machine low-temperature space (6) and belt-cooling machine cooling Area (9)；

The side of belt-cooling machine high-temperature region (2) is equipped with the first plenum chamber (3)；First plenum chamber (3) and belt-cooling machine high-temperature region (2) are even It is logical；First plenum chamber (3) is equidistantly equipped with the first air-supply port (4) far from the one end of belt-cooling machine (1)；First air-supply port (4) The outlet port of the first air supply device (5) is tightly connected by pipeline；

First flue gas cover (10) is located remotely from one end of the first plenum chamber (3)；First flue gas cover (10) is mounted on belt-cooling machine (1) On, and be connected to belt-cooling machine high-temperature region (2)；First flue gas cover (10) is tightly connected the first chimney breast (11)；First stovepipe Road (11) is tightly connected collection conduit (12)；

The side of belt-cooling machine low-temperature space (6) is equipped with the second plenum chamber (8)；Second plenum chamber (8) and belt-cooling machine low-temperature space (6) are even It is logical；Second plenum chamber (8) is equidistantly equipped with the second air-supply port far from the one end of belt-cooling machine (1)；Second air-supply port passes through pipe Road is tightly connected the outlet port of the second air supply device (7), for outside air to be conveyed into belt-cooling machine low-temperature space (6)；

Second flue gas cover (15) is located remotely from one end of the second plenum chamber (8)；Second flue gas cover (15) is mounted on belt-cooling machine (1) On, and be connected to belt-cooling machine low-temperature space (6)；Second flue gas cover (15) is tightly connected the second chimney breast (16)；Second stovepipe Road (16) is tightly connected the air inlet port of the first air supply device (5)；

Third flue gas cover (17) is mounted on belt-cooling machine (1), and is connected to belt-cooling machine cooling zone (9)；Third flue gas cover (17) is close Envelope connection third chimney breast (18)；Third chimney breast (18) is tightly connected the air inlet port of the 4th air supply device (19)；

Flue gas processing device (20) is equipped with the second air inlet port (203) and the second air outlet (210)；Second air inlet port (203) outlet port of the 4th air supply device (19) is tightly connected by pipeline；Second air outlet (210) is for connecting flue gas The inside and outside atmosphere of processing unit (20)；

Boiler electrification component (14) is equipped with the first air inlet port (141) and the first air outlet (142)；First air inlet port (141) it is tightly connected the outlet mouth of pipe of collection conduit (12)；First air outlet (142) is tightly connected the first air-supply by pipeline The air inlet port of device (5).

2. a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat according to claim 1, which is characterized in that Third air supply device (13) are installed in collection conduit (12)；Third air supply device (13) is located at the first air inlet port (141) and Between one chimney breast (11) and collection conduit (12) junction.

3. a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat according to claim 1, which is characterized in that Flue gas processing device (20) includes support column (21), shell (201), driving device (212) and check valve (217)；Support column (21) connected with outer casing (201)；Shell (201) is equipped with blowdown port (216)；Partition (204) are equipped in shell (201)；Partition (204) connected with outer casing (201), the first installation bin (202) and the second installation bin (205) will be divided into shell (201)；Partition (204) groove (218) are equidistantly equipped with towards the one end of the first installation bin (202)；Partition (204) is equipped with venthole (211)； Check valve (217) is mounted on blowdown port (216)；

First installation bin (202) is connected to the second air inlet port (203)；Be equipped in first installation bin (202) rotary shaft (213) and Turntable (214)；Rotary shaft (213) is rotatably installed in the first installation bin (202), and is extended the first installation bin (202) and passed It is dynamic to connect the driving device (212) being mounted on shell (201)；Turntable (214) is equidistantly mounted on along flow of flue gas direction In rotary shaft (213)；Turntable (214) is located in groove (218) close to the edge of partition (204)；Turntable is uniformly set on (214) There are filter hole (215)；Venthole (211) is located remotely from one end of the second air inlet port (203), is used for the first installation bin (202) flue gas in flows into the second installation bin (205)；

Second installation bin (205) is connected to the second air outlet (210)；It is equipped in second installation bin (205) spray head (206), defeated Water pipe (207), drying layer (208) and activated carbon adsorption layer (209)；

Water-supply-pipe (207) is mounted in the second installation bin (205), and is located remotely from one end of partition (204)；Spray head (206) etc. Spacing is mounted on water-supply-pipe (207)；Water-supply-pipe (207) extended spot shell (201), and connect external treatment liquid conveying device； The water discharging direction of spray head (206) is towards partition (204)；Drying layer (208) connected with outer casing (201), and be located on water-supply-pipe (207) Side；Activated carbon adsorption layer (209) connected with outer casing (201)；Activated carbon adsorption layer (209) is located above drying layer (208), and is located at Below second air outlet (210).

4. a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat according to claim 3, which is characterized in that There is gas treatment liquid in first installation bin (202)；Distance of the liquid level of gas treatment liquid apart from partition (204) is not less than rotation Distance of the axis (213) apart from partition (204)；Second air inlet port (203) is located at the ullage of gas treatment liquid.

5. a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat according to claim 3, which is characterized in that Partition (204) towards the end face of spray head (206) be inclined surface；The minimum point of the inclined surface of partition (204) is located at venthole (211) Place.

6. a kind of belt cooler vent flue gas circulating device in power generation by sintered waste heat according to claim 3, which is characterized in that The bottom of first installation bin (202) is back taper.