CN207886823U - A kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant - Google Patents
A kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant Download PDFInfo
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- CN207886823U CN207886823U CN201721579551.3U CN201721579551U CN207886823U CN 207886823 U CN207886823 U CN 207886823U CN 201721579551 U CN201721579551 U CN 201721579551U CN 207886823 U CN207886823 U CN 207886823U
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Abstract
The utility model is related to a kind of waste gas treatment equipments with dust-removal and desulfurizing function applied to coal-burning power plant,Including shell,Ash storage box is equipped in shell,Dedusting mechanism,Cooling mechanism and desulfurization mechanism,Dedusting mechanism includes air inlet pipe,Air exhauster,Snorkel,Air blower,Exhaust tube and ash-collecting pipe,Desulfurization mechanism includes presser unit and neutralisation unit,Presser unit includes dissolving case,Escape pipe,Drainpipe,Water inlet pipe,Delivery pipe and hydraulic press,It dissolves and is equipped with air sparger and piston in case,Neutralisation unit includes neutralizing case and liquid reserve tank,This is applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant,Pass through dedusting mechanism,The solid particle being relatively large in diameter in solid pollutant can not only be filtered,And also there is preferable elimination effect to the smaller solid dust of diameter,Moreover,Pass through desulfurization mechanism,The equipment can effectively remove the sulfur dioxide in exhaust gas,And the waste water dissolved with sulfur dioxide can be handled.
Description
Technical field
It is the utility model is related to field of environment protection equipment, more particularly to a kind of that there is dust-removal and desulfurizing work(applied to coal-burning power plant
The waste gas treatment equipment of energy.
Background technology
Coal-fired power plant is the factory for utilizing coal as fuel production electric energy.The pollutant of coal-burning power plant is broadly divided into solid
Body pollution object and gas pollutant, solid pollutant are mainly flyash, and gas pollutant is mainly sulfur dioxide.
But existing coal-burning power plant's waste gas treatment equipment is generally exactly that exhaust gas is passed through in water after filtering with regard to direct emission,
The solid particle being relatively large in diameter in solid pollutant can only be filtered, the elimination effect of the solid dust smaller to diameter has
Limit, moreover, existing coal-burning power plant's waste gas treatment equipment can not be effectively removed sulfur dioxide, and can not be right
Waste water dissolved with sulfur dioxide is handled.
Utility model content
The technical problems to be solved in the utility model is:For overcome the deficiencies in the prior art, it provides a kind of applied to combustion
The waste gas treatment equipment with dust-removal and desulfurizing function of coal-fired plant.
Technical solution adopted by the utility model to solve its technical problems is:It is a kind of to be removed applied to having for coal-burning power plant
The waste gas treatment equipment of dirt desulfurizing function, including shell, the shell is interior to be equipped with ash storage box, dedusting mechanism, cooling mechanism and takes off
Sulphur mechanism, the bottom of the ash storage box setting inside the shell, the dedusting mechanism are arranged in the top of ash storage box, the dust removal machine
Structure is connect with ash storage box, and the cooling mechanism and desulfurization mechanism are arranged at the top of dedusting mechanism, the cooling mechanism with remove
Dirt mechanism connects, and the desulfurization mechanism is connect with cooling mechanism;
The dedusting mechanism includes air inlet pipe, air exhauster, snorkel, air blower, exhaust tube and ash-collecting pipe, the air inlet pipe
One end and the external of shell be connected to, the other end of the air inlet pipe is connected to one end of air exhauster, the air exhauster it is another
End is connected to one end of snorkel, and the other end of the snorkel is connected to one end of air blower, the other end of the air blower
It is connected to one end of exhaust tube, the other end of the exhaust tube is connected to the external of shell, one end of the ash-collecting pipe and ventilation
The middle-end of pipe is connected to, and the other end of the ash-collecting pipe is connected to ash storage box, and one end of the close air exhauster of the snorkel is equipped with
One end of first valve, the close air blower of the snorkel is equipped with filter screen, and the second valve is equipped in the ash-collecting pipe;
The desulfurization mechanism includes presser unit and neutralisation unit, and the neutralisation unit is arranged in presser unit far from scattered
The side of heat engine structure, the neutralisation unit are connect with presser unit;
The presser unit includes dissolving case, escape pipe, drainpipe, water inlet pipe, delivery pipe and hydraulic press, the water inlet pipe
The both sides on the top of dissolving case are separately positioned on delivery pipe, the water inlet pipe and delivery pipe are connected to dissolving case, it is described go out
Tracheae and drainpipe are separately positioned on the both sides of the bottom end of dissolving case, and one end of the drainpipe is connected to dissolving case, the row
The other end of water pipe is connect with neutralisation unit, and the hydraulic press is fixed on the top of dissolving case, and air is equipped in the dissolving case
The bottom in dissolving case is arranged in distributor and piston, the air sparger, and the air sparger is connected to escape pipe, institute
It states hydraulic press to connect with piston drive, the inner wall of the piston and dissolving case is slidably connected;
The neutralisation unit includes neutralizing case and liquid reserve tank, and the liquid reserve tank is arranged in and the top of case, the liquid storage
Case is connected to case is neutralized, and the neutralization case is connected to by exhaust pipe with dissolving case.
Preferably, in order to enhance dust elimination effect, the filter screen is activated charcoal strainer.
Preferably, in order to enhance sealing effect, the piston is surrounded by rubber seal.
Preferably, in order to accurately control the switch of the first valve and the second valve, first valve and the second valve
It is electric port valve.
Preferably, in order to reduce the temperature of exhaust gas, the cooling mechanism includes heat absorbing units and heat-sink unit, described to dissipate
Hot cell is arranged in the side of the separate dissolving case of heat absorbing units, and the heat absorbing units include endothermic box, exhaust pipe and endothermic tube,
The endothermic tube is arranged in endothermic box, and the both ends of the endothermic tube are connected to exhaust pipe and escape pipe respectively, the exhaust pipe
It is connected to snorkel, the heat-sink unit includes heat dissipation tank, water pump, heat-dissipating pipe, air pump and nozzle, one end of the water pump and suction
Hot tank is connected to, and the other end of the water pump is connected to one end of heat-dissipating pipe, and the other end of the heat-dissipating pipe is connected to endothermic box, institute
It states one end of air pump to be connected to the external of shell, the other end of the air pump is connected to nozzle, and the nozzle is arranged in heat dissipation tank
Interior top, the heat dissipation tank are connected to the external of shell.
Preferably, in order to enhance heat transfer effect, the endothermic tube and heat-dissipating pipe are copper pipe.
Preferably, in order to reduce noise, the air exhauster, air blower and air pump are centrifugal blower.
Preferably, in order to enhance heat dissipation effect, the shape of the nozzle is tubaeform.
Preferably, in order to enhance heat dissipation effect, the heat-dissipating pipe is equipped at least two cooling fins, and the cooling fin is equal
It is even to be distributed on heat-dissipating pipe.
Preferably, in order to enhance cooling-down effect, the shape of the endothermic tube is S-shaped.
The utility model has the beneficial effects that should be set applied to the exhaust-gas treatment with dust-removal and desulfurizing function of coal-burning power plant
It is standby, by dedusting mechanism, the solid particle being relatively large in diameter in solid pollutant can not only be filtered, and to diameter compared with
Small solid dust also has preferable elimination effect, and compared with traditional dedusting mechanism, which generates electricity to coal-burning power plant
All solids dust in the exhaust gas of generation has preferable filtering function of removing moreover to pass through desulfurization mechanism, the equipment
The sulfur dioxide in exhaust gas can be effectively removed, and the waste water dissolved with sulfur dioxide can be handled, and it is traditional
Desulfurization mechanism compares, which will not generate the largely waste water containing sulfur dioxide, and the influence to environment is smaller.
Description of the drawings
The utility model is further illustrated with reference to the accompanying drawings and examples.
Fig. 1 is the structure of the waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant of the utility model
Schematic diagram;
Fig. 2 is the dedusting of the waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant of the utility model
The structural schematic diagram of mechanism;
Fig. 3 is the heat dissipation of the waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant of the utility model
The structural schematic diagram of mechanism;
Fig. 4 is the desulfurization of the waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant of the utility model
The structural schematic diagram of mechanism;
In figure:1. shell, 2. ash storage boxs, 3. endothermic box, 4. heat dissipation tanks, 5. dissolving casees, in 6. and case, 7. air inlet pipe, 8.
Air exhauster, 9. snorkels, 10. filter screens, 11. air blowers, 12. exhaust tubes, 13. first valves, 14. second valves, 15. exhausts
Pipe, 16. endothermic tubes, 17. water pumps, 18. heat-dissipating pipes, 19. cooling fins, 20. air pumps, 21. nozzles, 22. escape pipes, 23. air point
Cloth device, 24. drainpipes, 25. water inlet pipes, 26. pistons, 27. hydraulic presses, 28. delivery pipes, 29. liquid reserve tanks, 30. ash-collecting pipes.
Specific implementation mode
The utility model is described in further detail presently in connection with attached drawing.These attached drawings are simplified schematic diagram,
Only illustrate the basic structure of the utility model in a schematic way, therefore it only shows composition related with the utility model.
As shown in Figure 1, a kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant, including shell
1, the shell 1 is interior to be equipped with ash storage box 2, dedusting mechanism, cooling mechanism and desulfurization mechanism, and the ash storage box 2 is arranged in shell 1
Bottom, the dedusting mechanism is arranged in the top of ash storage box 2, and the dedusting mechanism is connect with ash storage box 2, the cooling mechanism
The top of dedusting mechanism is arranged at desulfurization mechanism, the cooling mechanism is connect with dedusting mechanism, the desulfurization mechanism with dissipate
Heat engine structure connects;
By dedusting mechanism, which can not only be filtered the solid particle being relatively large in diameter in solid pollutant,
And also have preferable elimination effect to the smaller solid dust of diameter, and compared with traditional dedusting mechanism, the dedusting mechanism pair
All solids dust in the exhaust gas that coal-burning power plant's power generation generates has preferable removing filtering function, moreover, by de-
Sulphur mechanism, which can effectively remove the sulfur dioxide in exhaust gas, and can be carried out to the waste water dissolved with sulfur dioxide
Processing, compared with traditional desulfurization mechanism, which will not generate the largely waste water containing sulfur dioxide, to the shadow of environment
Sound is smaller.
As shown in Fig. 2, the dedusting mechanism includes air inlet pipe 7, air exhauster 8, snorkel 9, air blower 11,12 and of exhaust tube
Ash-collecting pipe 30, one end of the air inlet pipe 7 are connected to the external of shell 1, the other end of the air inlet pipe 7 and the one of air exhauster 8
End connection, the other end of the air exhauster 8 are connected to one end of snorkel 9, the other end and the air blower 11 of the snorkel 9
One end is connected to, and the other end of the air blower 11 is connected to one end of exhaust tube 12, the other end and the shell 1 of the exhaust tube 12
External connection, one end of the ash-collecting pipe 30 is connected to the middle-end of snorkel 9, the other end and ash storage box of the ash-collecting pipe 30
One end of 2 connections, the close air exhauster 8 of the snorkel 9 is equipped with the first valve 13, the close air blower 11 of the snorkel 9
One end be equipped with filter screen 10, the second valve 14 is equipped in the ash-collecting pipe 30;
When dedusting mechanism is run, the first valve 13 first is opened, and the second valve 14 is closed, and exhaust gas is pressed into logical by air exhauster 8
In tracheae 9, after the filtering of filter screen 10, solid dust stays in the side of the close air exhauster 8 of filter screen 10, and exhaust gas passes through row
Tracheae 15 is discharged, and then the first valve 13 is closed, and the second valve 14 is opened, and the air outside shell 1 is pressed into ventilation by air blower 11
In pipe 9, the solid dust accumulated on filter screen 10 is poured by ash-collecting pipe 30 in ash storage box 2.
As shown in figure 4, the desulfurization mechanism includes presser unit and neutralisation unit, the neutralisation unit setting is single in pressurization
The side of the separate cooling mechanism of member, the neutralisation unit are connect with presser unit;
The presser unit includes dissolving case 5, escape pipe 22, drainpipe 24, water inlet pipe 25, delivery pipe 28 and hydraulic press
27, the water inlet pipe 25 and delivery pipe 28 are separately positioned on the both sides on the top of dissolving case 5, the water inlet pipe 25 and delivery pipe 28
Be connected to dissolving case 5, the escape pipe 22 and drainpipe 24 are separately positioned on the both sides for the bottom end for dissolving case 5, the draining
One end of pipe 24 is connected to dissolving case 5, and the other end of the drainpipe 24 is connect with neutralisation unit, and the hydraulic press 27 is fixed on
The top of case 5 is dissolved, air sparger 23 and piston 26 are equipped in the dissolving case 5, the air sparger 23 is arranged molten
The bottom in case 5 is solved, the air sparger 23 is connected to escape pipe 22, and the hydraulic press 27 is sequentially connected with piston 26, institute
It states piston 26 and is slidably connected with the inner wall for dissolving case 5;
The neutralisation unit includes neutralizing case 6 and liquid reserve tank 29, and the liquid reserve tank 29 is arranged in and the top of case 6, institute
It states liquid reserve tank 29 and is connected to case 6 is neutralized, the neutralization case 6 is connected to by exhaust pipe 15 with dissolving case 5.
Drainpipe 24 is passed through clean water in dissolving case 5 first, and then escape pipe 22 will be contained by air sparger 23
There is the exhaust gas of sulfur dioxide to be discharged into dissolving case 5, then hydraulic press 27 pushes piston 26 to push so that the air pressure in dissolving case 5
Increase, increases the solubility of sulfur dioxide in water, increase the elimination effect of sulfur dioxide, then waste water passes through 24 row of drainpipe
Entering to neutralize case 6, treated exhaust gas is discharged by delivery pipe 28, and the alkaline solution in last liquid reserve tank 29, which is passed through, neutralizes case 6,
Acidic materials in waste water are removed.
Preferably, in order to enhance dust elimination effect, the filter screen 10 is activated charcoal strainer.
Preferably, in order to enhance sealing effect, the piston 26 is surrounded by rubber seal.The surrounding of piston 26
Equipped with rubber seal gas can be caused to the slot leakage between piston 26 and the inner wall of dissolving case 5 to avoid due to exhaust gas
Drops.
Preferably, in order to accurately control the switch of the first valve 13 and the second valve 14, first valve 13 and
Two valves 14 are electric port valve.
As shown in figure 3, the cooling mechanism includes heat absorbing units and heat-sink unit, the heat-sink unit setting is single in heat absorption
The side of the separate dissolving case 5 of member, the heat absorbing units include endothermic box 3, exhaust pipe 15 and endothermic tube 16, the endothermic tube 16
Be arranged in endothermic box 3, the both ends of the endothermic tube 16 be connected tos with exhaust pipe 15 and escape pipe 22 respectively, the exhaust pipe 15 and
Snorkel 9 is connected to, and the heat-sink unit includes heat dissipation tank 4, water pump 17, heat-dissipating pipe 18, air pump 20 and nozzle 21, the water pump 17
One end be connected to endothermic box 3, the other end of the water pump 17 is connected to one end of heat-dissipating pipe 18, the heat-dissipating pipe 18 it is another
End is connected to endothermic box 3, and one end of the air pump 20 is connected to the external of shell 1, the other end and the nozzle 21 of the air pump 20
The top in heat dissipation tank 4 is arranged in connection, the nozzle 21, and the heat dissipation tank 4 is connected to the external of shell 1.High temperature is useless first
When gas flows through endothermic tube 16, heat is passed into the coolant liquid in endothermic box 3 by endothermic tube 16, so that coolant liquid is heated up, then
Water pump 17 is by the high temperature coolant indentation heat-dissipating pipe 18 in endothermic box 3, and then the cold air outside shell is passed through spray by air pump 20
First 21 are sprayed onto on heat-dissipating pipe 18, cool down to the coolant liquid in heat-dissipating pipe 18, and suction will be back to through overcooled coolant liquid
In hot tank 3.
Preferably, in order to enhance heat transfer effect, the endothermic tube 16 and heat-dissipating pipe 18 are copper pipe.The heat conduction of copper
Performance is good, and endothermic tube 16 and heat-dissipating pipe 18, which are copper pipe, can accelerate heat-transfer rate, to enhance heat transfer effect.
Preferably, in order to reduce noise, the air exhauster 8, air blower 11 and air pump 20 are centrifugal blower.
Preferably, in order to enhance heat dissipation effect, the shape of the nozzle 21 is tubaeform.The shape of nozzle 21 is loudspeaker
Shape can be such that cold air and the contact area of heat-dissipating pipe 18 increases, to accelerate radiating rate, to enhance heat dissipation effect.
Preferably, in order to enhance heat dissipation effect, the heat-dissipating pipe 18 is equipped at least two cooling fins 19, the heat dissipation
Piece 19 is evenly distributed on heat-dissipating pipe 18.Cooling fin 19 can be such that cold air and the contact area of heat-dissipating pipe 18 increases, to add
Fast radiating rate, to enhance heat dissipation effect.
Preferably, in order to enhance cooling-down effect, the shape of the endothermic tube 16 is S-shaped.The shape of endothermic tube 16 is S-shaped
The contact area that endothermic tube 16 and the coolant liquid in endothermic box 3 can be increased accelerates the cooling rate of exhaust gas, to enhance
Cooling-down effect.
This is applied to the operation principle of the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant:Dedusting mechanism is transported
When row, the first valve 13 is opened, and the second valve 14 is closed, and exhaust gas is pressed into snorkel 9 by air exhauster 8, by 10 mistake of filter screen
After filter, solid dust stays in the side of the close air exhauster 8 of filter screen 10, and exhaust gas is discharged by exhaust pipe 15, the first valve 13
It closes, the second valve 14 is opened, and air blower 11 is consolidated in the air indentation snorkel 9 outside shell 1 by what is accumulated on filter screen 10
Body dust is poured by ash-collecting pipe 30 in ash storage box 2, to be filtered to the various solid particles in solid pollutant, separately
Outside, when desulfurization mechanism is run, presser unit works first, and drainpipe 24 is passed through clean water in dissolving case 5, and escape pipe 22 is logical
It crosses air sparger 23 exhaust gas containing sulfur dioxide is discharged into dissolving case 5, hydraulic press 27 pushes piston 26 to push so that molten
The air pressure solved in case 5 increases, and increases the solubility of sulfur dioxide in water, increases the elimination effect of sulfur dioxide, waste water passes through
Drainpipe 24, which is discharged into, neutralizes case 6, and treated exhaust gas is discharged by delivery pipe 28, and then neutralisation unit works, liquid reserve tank 29
In alkaline solution be passed through neutralize case 6, by waste water acidic materials remove.
Compared with prior art, should pass through applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant
Dedusting mechanism can not only be filtered the solid particle being relatively large in diameter in solid pollutant, and consolidate to diameter is smaller
Body dust also has preferable elimination effect, and compared with traditional dedusting mechanism, which generates coal-burning power plant's power generation
All solids dust in exhaust gas has preferable removing filtering function, and moreover, by desulfurization mechanism, which can have
Effect removes the sulfur dioxide in removing exhaust gas, and can handle the waste water dissolved with sulfur dioxide, with traditional desulfurizing machine
Structure is compared, which will not generate the largely waste water containing sulfur dioxide, and the influence to environment is smaller.
It is enlightenment, through the above description, related work people with the above-mentioned desirable embodiment according to the utility model
Member can carry out various changes and amendments in the range of without departing from this item utility model technological thought completely.This item is real
It is not limited to the contents of the specification with novel technical scope, it is necessary to which its technology is determined according to right
Property range.
Claims (10)
1. a kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant, which is characterized in that including shell
(1), the shell(1)It is interior to be equipped with ash storage box(2), dedusting mechanism, cooling mechanism and desulfurization mechanism, the ash storage box(2)Setting
In shell(1)Interior bottom, the dedusting mechanism are arranged in ash storage box(2)Top, the dedusting mechanism and ash storage box(2)Even
It connects, the cooling mechanism and desulfurization mechanism are arranged at the top of dedusting mechanism, and the cooling mechanism is connect with dedusting mechanism, institute
Desulfurization mechanism is stated to connect with cooling mechanism;
The dedusting mechanism includes air inlet pipe(7), air exhauster(8), snorkel(9), air blower(11), exhaust tube(12)Sum aggregate ash
Pipe(30), the air inlet pipe(7)One end and shell(1)External connection, the air inlet pipe(7)The other end and air exhauster
(8)One end connection, the air exhauster(8)The other end and snorkel(9)One end connection, the snorkel(9)It is another
End and air blower(11)One end connection, the air blower(11)The other end and exhaust tube(12)One end connection, the pumping
Tracheae(12)The other end and shell(1)External connection, the ash-collecting pipe(30)One end and snorkel(9)Middle-end connect
It is logical, the ash-collecting pipe(30)The other end and ash storage box(2)Connection, the snorkel(9)Close air exhauster(8)One end set
There is the first valve(13), the snorkel(9)Close air blower(11)One end be equipped with filter screen(10), the ash-collecting pipe
(30)Inside it is equipped with the second valve(14);
The desulfurization mechanism includes presser unit and neutralisation unit, and the separate heat dissipation machine in presser unit is arranged in the neutralisation unit
The side of structure, the neutralisation unit are connect with presser unit;
The presser unit includes dissolving case(5), escape pipe(22), drainpipe(24), water inlet pipe(25), delivery pipe(28)And liquid
Press(27), the water inlet pipe(25)And delivery pipe(28)It is separately positioned on dissolving case(5)Top both sides, the water inlet pipe
(25)And delivery pipe(28)With dissolving case(5)Connection, the escape pipe(22)And drainpipe(24)It is separately positioned on dissolving case
(5)Bottom end both sides, the drainpipe(24)One end with dissolving case(5)Connection, the drainpipe(24)The other end with
Neutralisation unit connects, the hydraulic press(27)It is fixed on dissolving case(5)Top, the dissolving case(5)The interior air that is equipped with is distributed
Device(23)And piston(26), the air sparger(23)Setting is in dissolving case(5)Interior bottom, the air sparger(23)
With escape pipe(22)Connection, the hydraulic press(27)With piston(26)It is sequentially connected, the piston(26)With dissolving case(5)It is interior
Wall is slidably connected;
The neutralisation unit includes neutralizing case(6)And liquid reserve tank(29), the liquid reserve tank(29)It is arranged in and case(6)It is upper
Side, the liquid reserve tank(29)With neutralization case(6)Connection, the neutralization case(6)Pass through exhaust pipe(15)With dissolving case(5)Connection.
2. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as described in claim 1
It is, the filter screen(10)For activated charcoal strainer.
3. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as described in claim 1
It is, the piston(26)Be surrounded by rubber seal.
4. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as described in claim 1
It is, first valve(13)With the second valve(14)It is electric port valve.
5. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as described in claim 1
It is, the cooling mechanism includes heat absorbing units and heat-sink unit, and the separate dissolving in heat absorbing units is arranged in the heat-sink unit
Case(5)Side, the heat absorbing units include endothermic box(3), exhaust pipe(15)And endothermic tube(16), the endothermic tube(16)If
It sets in endothermic box(3)It is interior, the endothermic tube(16)Both ends respectively with exhaust pipe(15)And escape pipe(22)Connection, the exhaust
Pipe(15)With snorkel(9)Connection, the heat-sink unit includes heat dissipation tank(4), water pump(17), heat-dissipating pipe(18), air pump(20)
And nozzle(21), the water pump(17)One end and endothermic box(3)Connection, the water pump(17)The other end and heat-dissipating pipe(18)
One end connection, the heat-dissipating pipe(18)The other end and endothermic box(3)Connection, the air pump(20)One end and shell(1)
External connection, the air pump(20)The other end and nozzle(21)Connection, the nozzle(21)It is arranged in heat dissipation tank(4)Interior
Top, the heat dissipation tank(4)With shell(1)External connection.
6. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as claimed in claim 5
It is, the endothermic tube(16)And heat-dissipating pipe(18)It is copper pipe.
7. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as claimed in claim 5
It is, the air exhauster(8), air blower(11)And air pump(20)It is centrifugal blower.
8. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as claimed in claim 5
It is, the nozzle(21)Shape be it is tubaeform.
9. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as claimed in claim 5
It is, the heat-dissipating pipe(18)It is equipped at least two cooling fins(19), the cooling fin(19)It is evenly distributed on heat-dissipating pipe
(18)On.
10. being applied to the waste gas treatment equipment with dust-removal and desulfurizing function of coal-burning power plant, feature as claimed in claim 5
It is, the endothermic tube(16)Shape be S-shaped.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721579551.3U CN207886823U (en) | 2017-11-23 | 2017-11-23 | A kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant |
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CN201721579551.3U CN207886823U (en) | 2017-11-23 | 2017-11-23 | A kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant |
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CN207886823U true CN207886823U (en) | 2018-09-21 |
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CN201721579551.3U Expired - Fee Related CN207886823U (en) | 2017-11-23 | 2017-11-23 | A kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107694227A (en) * | 2017-11-23 | 2018-02-16 | 南京中研专利技术开发有限公司 | A kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant |
CN109316926A (en) * | 2018-12-14 | 2019-02-12 | 张秀萍 | Emission-control equipment is used in a kind of production of glass Mosaic |
CN114561222A (en) * | 2022-03-16 | 2022-05-31 | 青岛科信新能源技术有限公司 | Intelligent control system of biomass gasification power generation system |
-
2017
- 2017-11-23 CN CN201721579551.3U patent/CN207886823U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107694227A (en) * | 2017-11-23 | 2018-02-16 | 南京中研专利技术开发有限公司 | A kind of waste gas treatment equipment with dust-removal and desulfurizing function applied to coal-burning power plant |
CN109316926A (en) * | 2018-12-14 | 2019-02-12 | 张秀萍 | Emission-control equipment is used in a kind of production of glass Mosaic |
CN114561222A (en) * | 2022-03-16 | 2022-05-31 | 青岛科信新能源技术有限公司 | Intelligent control system of biomass gasification power generation system |
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