CN202289840U - Activated coke flue gas desulfurization and denitrification system - Google Patents

Activated coke flue gas desulfurization and denitrification system Download PDF

Info

Publication number
CN202289840U
CN202289840U CN2011204451384U CN201120445138U CN202289840U CN 202289840 U CN202289840 U CN 202289840U CN 2011204451384 U CN2011204451384 U CN 2011204451384U CN 201120445138 U CN201120445138 U CN 201120445138U CN 202289840 U CN202289840 U CN 202289840U
Authority
CN
China
Prior art keywords
activated coke
desulfurization
desorption
zone
regeneration
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn - After Issue
Application number
CN2011204451384U
Other languages
Chinese (zh)
Inventor
高继贤
刘静
翟尚鹏
曾艳
傅月梅
郑阳
辛昌霞
唐夕山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
SHANGHAI CLEAR ENVIRONMENTAL PROTECTION SCIENCE AND TECHNOLOGY Co Ltd
Original Assignee
SHANGHAI CLEAR ENVIRONMENTAL PROTECTION SCIENCE AND TECHNOLOGY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by SHANGHAI CLEAR ENVIRONMENTAL PROTECTION SCIENCE AND TECHNOLOGY Co Ltd filed Critical SHANGHAI CLEAR ENVIRONMENTAL PROTECTION SCIENCE AND TECHNOLOGY Co Ltd
Priority to CN2011204451384U priority Critical patent/CN202289840U/en
Application granted granted Critical
Publication of CN202289840U publication Critical patent/CN202289840U/en
Anticipated expiration legal-status Critical
Withdrawn - After Issue legal-status Critical Current

Links

Images

Landscapes

  • Treating Waste Gases (AREA)

Abstract

The utility model discloses an activated coke flue gas desulfurization and denitrification system. The activated coke flue gas desulfurization and denitrification system comprises an adsorbing reactor, a desorption regenerator, a material conveying device and a by-product converting device, wherein the devices are connected with each other by using specific pipelines; and functions of the devices are realized by using a specific process. The adsorbing reactor is a composite layer double-section cross-flow moving bed; the adsorbing reactor comprises a denitrification section and a desulfurization section so as to realize the concentrated purification of SO2, NOx, dioxin, mercury and fume in the flue gas; the desorption regenerator is divided into a preheating area, a regenerating area and a cooling area so that fetching of activated coke attached with mercury and dioxin as well as follow-up harmless treatment of the activated coke are realized; the desorption regenerator is used for exchanging heat by using a heater as well as circulating and recycling the heat energy; and the by-product converting device is used for carrying out resource recovery on desorption regenerated gas generated in the regenerating process.

Description

A kind of activated coke desulfurization denitrating system
Technical field
The utility model belongs to coal-fired thermoelectricity, smelts cigarette (giving up) the gas integrated purification technology of flue gas desulfurization, denitration, Tuo bioxin and the demercuration and the dedusting in sintering machine, coal-burning boiler, nonferrous metallurgy and chemical building material field; In particular to a kind of system that is used for the activated coke desulfurization denitration.
Background technology
Industrialization of China and economic construction are fast-developing, are discharged into SO a large amount of in the atmosphere every year 2And NO x, cause serious acid rain harm.By 2010, the annual SO that in atmosphere, discharges 2Surpass 2,000 ten thousand tons, exceeded the ability of atmospheric self-cleaning.The NOx that is discharged into every year in the atmosphere increases year by year, the acid rain that has made China gradually from before sulfate radical type acid rain to sulfuric acid and nitric acid mixed type acid rain conversion in type; Simultaneously, the poor sulphur of China, annual cost huge fund is from a large amount of sulphur of external import; Even recovery of newly building up and the enterprise that produces sulphur are going into operation in recent years, but still can not satisfy the consumption of domestic sulphur, and China is large agricultural country, needs a large amount of chemical fertilizer every year, the sulfuric acid that other industrial trades also need be a large amount of.
During " 12 ", country is to SO 2And NO xCER be respectively 8% and 10%, become the restrictive index that China further develops; Therefore, in " 12 " and longer afterwards time, China control SO 2And NO xThe task of discharging and energy-saving and emission-reduction is very heavy, and bigger desulphurization market and huge denitration market are arranged.Along with strictness day by day to environmental requirement; Be discharged in the atmosphere mercury He noxious materials such as bioxin also begin to receive publicity and control; To Air Pollution Control from before simple flue gas desulfurization begin to flue gas desulfurization, denitration, demercuration Yu uniting of multi-pollutants such as bioxin removes; Exploitation can be united and removed, and the flue gases purification that resource reclaims is significant.
But the space layout of the energy of China, metallurgy and chemical industry and the flue gases purification that cleans the environmental protection of development need exploitation height, degree of depth water saving, integrated purification and resource.Coal in China mainly is distributed in the water-deficient area of the north and northwest, and during " 12 ", China plans to build 16 big moulded coal electricity bases of establishing and is distributed in the water-deficient area more; Inner Mongol tin alliance coal electricity base like planning construction; Hami coal electricity base, regional ecology fragility, serious water shortage; The big capacity of building, the thermoelectricity of high parameter need adopt air cooling technique and preferentially select desulfurization by dry method to realize water saving, and need to select advanced flue gases purification desulphurization denitration and demercuration.In sintering flue gas desulfurization denitration industry; Smoke components is complicated, fluctuation is big, and steel plant need sulfuric acid, and needs desulfurization, denitration and remove pollutant such as bioxin; Therefore, need select the flue gas integrated purification technology that can adapt to sinter fume fluctuation, complexity characteristics for use.
In various flue gases purifications, the activated coke flue gases purification is a kind ofly can unite the SO that removes in the flue gas 2, NO x, mercury 、 bioxin and dedusting; And can economize on water and the flue gases purification that reclaims the sulphur resource; But characteristics with height environmental protection, degree of depth water saving, integrated purification and resource; Being the advanced flue gases purification that adapts to the coal-fired thermoelectricity flue gas desulfurization in China water-deficient area and most steel works sintering desulfurization of China and integrated purification, is a kind of advanced green technology with broad prospects for development.
Adsorptive reactor and desorption and regeneration device are the key and the cores of active coke desulphurizing denitration technology, and adsorptive reactor and desorption and regeneration device that exploitation is fit to carry out the integrated purification of multi-pollutant are the keys of carrying out the combined desulfurization and denitration technology.External Japan and Germany have some units to develop adsorptive reactor and the desorption and regeneration device and the process of combined desulfurization and denitration; Cross-flow moving bed is widely used adsorptive reactor in a kind of process of combined desulfurization and denitration; Patent CN 101274193B discloses a kind of the radially moving bed of gas cleaning that be used for, and the device multiple-unit parallel connection composite behaviour of radially moving bed its circular cross-section of being announced is relatively poor relatively; Patent JP8103668 has announced a kind of active coke desulphurizing denitrating catalyst and corresponding desulfuring and denitrifying apparatus figure, does not have tangible dual segment structure and internal structure also not to have layering in the device of being announced; So DeGrain of desulphurization denitration; Patent JP62171737 has announced a kind of active coke desulphurizing denitrating technique flow process, but desulfurizing tower and denitrating tower are arranged apart.
To sum up; The adsorptive reactor of existing combined desulfurization and denitration exists with the desorption and regeneration device that structure efficiency is on the low side, energy consumption is higher, flow process is complicated, gas-solid contacts insufficient; Characteristics such as heat transfer property is bad in the bed, and focus is prone to emerge, and integrated purifying property is on the low side, the adaptation condition wave stability is relatively poor; Need the new activated coke desulfurization denitration of exploitation and the adsorptive reactor and the desorption and regeneration device of technological process and new construction, realize the innovation of activated coke desulfurization denitrating system.
The utility model content
The technical problem that the utility model will solve provides a kind of efficient active coke desulphurizing denitrating system, realizes the SO in the flue gas 2, NO x, pollutants such as mercury 、 bioxin and flue dust integrated purification, reclaim the sulphur resource, and enrichment absorption mercury He the dangerous activated coke of bioxin as solid useless processing.For realizing the utility model purpose, the utility model provides following concrete technical scheme:
A kind of system of activated coke desulfurization denitration, said system comprise adsorptive reactor 1, desorption and regeneration device 2, device for transporting objects and accessory substance reforming unit, connect through specific pipeline between each device, and adopt specific process to realize function;
Said adsorptive reactor 1 is that the two sections of composite bed are cross-flow moving bed, and said adsorptive reactor 1 is made up of for two sections denitration section and desulfurization section; Said denitration section comprises denitration section collection chamber 11, denitration district 5 and denitration section sub-air chamber 12; Said desulfurization section comprises desulfurization section collection chamber 10, desulfurization zone 6 and desulfurization section sub-air chamber 9, and said denitration district 5 is communicated with through being arranged on two intersegmental blanking channels 24 with said desulfurization zone 6; Be provided with a flue gas ammonia mixing chamber 26 between said denitration section sub-air chamber 12 and the desulfurization section collection chamber 10; Said desulfurization section sub-air chamber 9 is communicated with a gas approach 21, and said denitration section collection chamber 11 is communicated with an exhanst gas outlet 22; Said desulfurization section collection chamber 10 is communicated with said denitration section sub-air chamber 12 through a flue gas ammonia mixing chamber 26, and said flue gas ammonia mixing chamber 26 is communicated with an ammonia import 25;
Said desorption and regeneration device 2 is used for the activated coke that adsorptive reactor 1 is discharged is regenerated; Said desorption and regeneration device 2 is the tubular structure of densely covered pipeline around a closed shell, comprises preheating zone 15, renewing zone 16 and cooling zone 17; Said preheating zone 15, said renewing zone 16 are provided with a regeneration gas body exhaust pipe respectively, are equipped with the by-pass valve control of control piper aperture on the said regeneration gas exhaust pipe; The parallel connection of said regeneration gas exhaust pipe is linked in the said accessory substance reforming unit carries out the sulphur recycling treatment; Feeding heat medium in the pipeline of said preheating zone 15 and renewing zone 16 circulates; Three-deckers are adopted in said preheating zone 15, be respectively preheating zone tremie pipe layer 38, on get the bed of material 37 and material taking layer 39, carry out activated coke sampling or discharging post processing at the last bed of material 37 of getting with material taking layer 39; Feed cooling medium in the pipeline of said cooling zone 17 and carry out cool cycles;
Said device for transporting objects adopts the conveyer belt of sealing to carry activated coke, connects adsorptive reactor 1 and desorption and regeneration device 2; Described conveyer belt comprises absorption back activated coke conveyer belt 3 and regeneration back activated coke conveyer belt 4; Described absorption back activated coke conveyer belt 3 connects mixing blanking bin 18 that is arranged on adsorptive reactor 1 below and the desorption and regeneration device storage tank 35 that is arranged on desorption and regeneration device 2 tops, and described regeneration back activated coke conveyer belt 4 connects screening plant 30 that is arranged on desorption and regeneration device 2 belows and the adsorptive reactor storage tank 35 that is arranged on adsorptive reactor 1 top;
Said accessory substance reforming unit 33 is connected the desorption and regeneration gas that is used for regenerative process is produced with said renewing zone 16 and carries out the sulphur resource, comprises concentrated sulfuric acid process units, Claus system sulphur unit or liquid SO 2Process units.
Thus, a kind of active coke desulphurizing denitrating system of providing of the utility model can be realized efficient integrated purification function.This activated coke desulfurization denitrification apparatus is through using adsorptive reactor, the combination of desorption and regeneration device, and flue gas has been removed the SO in the flue gas by activated coke absorption in adsorptive reactor 2, NO x, pollutant such as mercury 、 bioxin and flue dust, the activated coke after the absorption enters into the desorption and regeneration device and carries out desorption, the activated coke behind the desorption can recycle again, the regeneration gas behind the desorption can carry out the sulphur recycling treatment through the accessory substance reforming unit.
The utility model is in order to reduce follow-up accessory substance reforming unit De bioxin content simultaneously; Be solidificated in the desorption De bioxin that comes out in the activated coke of preheating zone as far as possible; Do harmless treatment to activated coke, be provided with two parallelly connected regeneration gas exhaust pipes in preheating zone and renewing zone, because be equipped with by-pass valve control on the regeneration gas exhaust pipe; Get into follow-up accessory substance reforming unit so can control how much content De bioxin as required, and select which regeneration gas exhaust pipe to bleed; Promptly can select to bleed or bleed in the preheating zone in the renewing zone still is to make up in two zones to bleed; Get into the accessory substance reforming unit if do not limit or limit less bioxin, then can directly bleed in the renewing zone; If the restriction bioxin gets into the accessory substance reforming unit, then only bleed and do not bleed in the renewing zone in the preheating zone, can certainly both make up simultaneously and bleed.
For the adsorptive reactor part, the utility model forms lamination layer structure-denitration section simultaneously and comprises denitration section collection chamber, denitration district and denitration section sub-air chamber three-decker through adsorptive reactor inside being carried out two sections of segment design-denitration section and desulfurization sections; Desulfurization section comprises desulfurization section collection chamber, desulfurization zone and desulfurization section sub-air chamber three-decker, thereby lets flue gas contact in the inner fully cross-flow of adsorptive reactor with activated coke, removes the SO in the flue gas to greatest extent 2, NO x, pollutant such as mercury 、 bioxin and flue dust.
Further optimally; The cross section of said adsorptive reactor is a rectangle; Whole for being similar to cuboid; The regeneration gas exhaust pipe that said preheating zone 15 is provided with is first exhaust pipe and second exhaust pipe of two parallel connections, and said first exhaust pipe is arranged on to be got in the bed of material 37 on said, and said second exhaust pipe is arranged in the said material taking layer 39.
For further feasible bleeding from the preheating zone can be more accurate; The regeneration gas exhaust pipe that preheating zone 15 is provided with can be subdivided into the exhaust pipe of two parallel connections; Be separately positioned on and get the bed of material and material taking layer; Obviously get bed of material De bioxin content still less on, material taking layer De bioxin content is wanted multiple spot relatively, is convenient to carry out control combination and bleeds.
Further optimally, be provided with one between the denitration section of said adsorptive reactor and the desulfurization section and be used to clear up the cleaning passage of said desulfurization zone and said denitration district activated coke; The outlet of the activated coke of said adsorptive reactor be provided with one be used to filter out broken activated coke and ammonium sulfate vibratory sieve.
Activated coke has the part activated coke and drops on the blanking channel in the process that falls, because blanking channel is the combination of similar two conical hoppers, can avoid the accumulation of activated coke particle through suitable inclination angle is set; But, NH is arranged at epimere 3Participate in reaction and generate ammonium sulfate, increase under the situation of activated coke viscous force, have the part activated coke under specific circumstances and gather, so reserved the cleaning passage in the patent device, the cleaning passage can be manhole or other structures.
In adsorptive reactor, because remaining SO 2With NH 3Reaction; Can generate a spot of ammonium sulfate; Though in device, the cleaning passage is set, can periodic cleaning activated coke and ammonium sulfate, must also have the part of sulfuric acid ammonium salt and stick on the activated coke; Thereby increased the viscous force of activated coke, the translational speed of the activated coke that slowed down in adsorptive reactor.Therefore, this patent is established vibratory sieve in adsorptive reactor hypomere selectivity, when separating broken activated coke and coke powder, also sieves out a part of ammonium sulfate and removes then, thereby reduce the viscous force in the activated coke motion.
Further optimally; Described adsorptive reactor desulfurization zone 6 is provided with activated coke layering grid 23; Discharging opening 13 and back discharging opening 14 before adsorptive reactor 1 bottom is provided with; Discharging opening 13 and back discharging opening 14 be through the different blanking flow of valve control activated coke before said, make the preceding activated coke layer of activated coke particle in desulfurization zone with after under the activated coke course mobile speed different with the time of staying, strengthen efficient adsorption reaction desulfurized effect.
The advantage that is provided with like this is desulfurization zone is done separation again, helps the further purification of flue gas, at the preceding activated coke layer of adsorptive reactor, can realize the thick desulfurization of activated coke to flue gas, and flue gas obtains preliminary purification; At the back activated coke layer of adsorptive reactor, can realize active pyrogene desulfurization, flue gas continues to be purified; Separation design through the activated coke layer has realized the efficient utilization of activated coke and the high-efficiency desulfurization of device.
Further contemplate some and simplify favourable specific operation, described adsorptive reactor desulfurization zone 6 is not established activated coke layering grid at desulfurization zone under specific circumstances, and the adsorptive reactor bottom is provided with a discharging opening, has simplified adsorptive reactor structure and operation.
For desorption and regeneration device part; The below of said desorption and regeneration device 2 is provided with the screening plant 30 that sieves of activated coke that is used for regeneration; Said activated coke is after said screening plant 30 screenings; The broken activated coke of a part is disallowable, and the adsorptive reactor storage tank 35 that remaining activated coke enters into said adsorptive reactor 1 top again circulates once more.
Screening plant divides broken activated coke particle and the activated coke dressing sieve of size less than 1.5mm down, and broken activated coke is separated with coke powder; The activated coke that particle is bigger with the fresh activated coke of part of replenishing, through regeneration back activated coke conveyer belt, is transported to the adsorptive reactor top, adds adsorptive reactor, and the adsorption reaction of carrying out next circulation removes.
Further optimally, the accessory substance reforming unit of sulphur resource; Comprise concentrated sulfuric acid process units, Claus system sulphur unit or liquid SO 2Process units is produced the concentrated sulfuric acid, sulphur, liquid SO 2Or other Containing Sulfur chemical product.
Utilize a kind of activated coke desulfurization denitrating system of this patent to carry out the process of flue gas desulfurization and denitrification, comprise the steps:
(a) desulfurization denitration demercuration Tuo bioxin: flue gas enters into the desulfurization section of said adsorptive reactor 1 from the gas approach of said adsorptive reactor 1, contacts with the activated coke cross-flow that falls from the top down, removes the SO in the flue gas 2、 bioxin and mercury; Flue gas mixes in said flue gas ammonia mixing chamber 26 with the ammonia that feeds from said ammonia import through desulfurization section, and upwards flowing is horizontally through the denitration section, realizes denitrating flue gas, and removes SO remaining in the flue gas 2、 bioxin and mercury; Flue gas after being purified is discharged from the exhanst gas outlet 22 of said adsorptive reactor 1;
Desorption and regeneration: activated coke gets into said desorption and regeneration device 2 then from backward down the discharge with back discharging opening 14 from said preceding discharging opening 13 of adsorptive reactor storage tank of said adsorptive reactor 1; Activated coke is come out the sulfurous gas desorption of absorption in said desorption and regeneration device 2, desorption come out respectively from said preheating zone 15, said renewing zone 16 enters into said accessory substance reforming unit and carries out the sulphur recycling treatment; Activated coke after the regeneration back that falls in the housing of said desorption and regeneration device 2 enters into said adsorptive reactor 1 again together with the new activated coke of adding of part and circulates next time.
Further preferably; Also can comprise the steps the processing of (c) activated coke: in the preheating zone of desorption and regeneration device 2; Have absorption and enrichment mercury with the activated coke of bioxin; Through the running time of long period such as half a year to one year, concentrate activated coke discharging displacement with desorption and regeneration device 2 preheating zones, the activated coke that discharging is taken out according to danger useless admittedly carry out buried; Through than the long running time, also can adopt washing, reaction precipitation mercury to the mercury in the activated coke, the mode utilized again of dried active Jiao realizes the harmless treatment of mercury again.
(d) accessory substance transforms: the regeneration gas of drawing from desorption and regeneration device 2 renewing zones, produce the concentrated sulfuric acid, sulphur or liquid SO through the accessory substance reforming unit 2, and carry out follow-up deep processing as required.
Further preferably, the adsorption temp of said activated coke is 80-150 ℃, and desorption temperature is 350-450 ℃, flue gas air speed 280~500h -1, ammonia concentration is 1.0~1.5 times of NOx concentration in the flue gas.
The method of carrying out flue gas desulfurization and denitrification through activated coke mainly was divided into for three steps, and a step is exactly the integrated purification of flue gas desulfurization and denitrification demercuration Tuo bioxin dedusting, and a step is exactly the desorption and regeneration of activated coke, and another step is exactly the production of accessory substance and the recovery of sulphur resource.For activated coke, constantly adsorption reaction, regeneration, adsorption reaction again, regeneration then, thus form a circulation, constantly add fresh activated coke certainly in the cyclic process, thereby keep the ability substantially constant of the desulphurization denitration of activated coke.And flue gas has been removed SO wherein by activated coke 2, discharge behind the pollutant such as NOx, bioxin and mercury, made full use of through the over cure resource again by the sulfur-bearing regeneration gas of desorption; To sum up, in the whole technical process, the activated coke recycle; Consume little, the integrated clean-up effect of flue gas desulfurization and denitrification demercuration Tuo bioxin dedusting also clearly, the gas of regeneration can also carry out the sulphur resource; Basically not having what waste, is the process of a low-carbon (LC), environmental protection, economy, meets the recycling industries and clean production theory; And whole process flow is simple and clear, easy operating.Because adsorptive reactor adopts two section lamination layer structures, make that the gas-solid contact is more abundant simultaneously, activated coke utilization ratio and system effectiveness are higher, and the integrated purifying property of flue gas is higher; The adsorptive reactor of approximate cuboid also helps the parallel connection combination of reaction member, improves the quantity of single treatment flue gas, can more effectively realize the integrated purification of flue gas; The structure that the sandwich construction design of desorption and regeneration device preheating zone and multilayer pipe pass go out desorption and regeneration gas; Satisfied the dangerous solid material taking-up of activated coke that certain interval of time will adsorb saturated enrichment mercury 、 bioxin; In addition follow-up buried processing realizes mercury with the harmless reason everywhere of bioxin; Integrated recovery of the heat energy of desorption and regeneration device and high efficient heat exchanging structure have reduced energy consumption; Through the accessory substance reforming unit to being rich in dense SO 2Desorption and regeneration gas transform, produce the concentrated sulfuric acid, sulphur, liquid SO 2Deng product, reclaim the sulphur resource, realized the doulbe-sides' victory of environmental protection and economy; The system of this patent and process have height environmental protection, degree of depth water saving, integrated purification, resource recovery, adapt to wide, efficient multiple advantage.
Description of drawings
Fig. 1 is the activated coke desulfurization denitrating system overall structure sketch map of the utility model.
The drawing reference numeral explanation:
1. adsorptive reactor, 2. desorption and regeneration device, 3. absorption back activated coke conveyer belt,
4. regeneration back activated coke conveyer belt, 5. denitration district, 6. desulfurization zone,
7. preceding activated coke layer, 8. back activated coke layer, 9. desulfurization section sub-air chamber, 10. desulfurization section collection chamber,
11. denitration section collection chamber, 12. denitration section sub-air chamber, 13. preceding discharging openings, 14. back discharging openings,
15. the preheating zone, 16. renewing zones, 17. cooling zones, 18. mix blanking bin,
19. the flue gas generating means, 20. dedusters, 21. gas approach, 22 exhanst gas outlets,
23. activated coke layering grid, 24. blanking channels, 25. ammonia imports,
26. flue gas ammonia mixing chamber; 27. blower fan, 28. chimneys, 29. heaters,
30. screening plant, 31. broken activated coke moving-out devices, 32. exhaust gas cleaners,
33. accessory substance reforming unit 34. cleaning passages 35. adsorptive reactor storage tanks
36. get the bed of material 38. preheating zone tremie pipe layers 39. material taking layer on the desorption and regeneration device storage tank 37.
The specific embodiment
Now in conjunction with the accompanying drawings and embodiments the utility model is further explained.
A kind of activated coke desulfurization denitrating system as shown in Figure 1 comprises adsorptive reactor 1; Be used for desorption and regeneration device 2 that the activated coke of discharging from adsorptive reactor 1 is regenerated; The desorption and regeneration gas that is used for that regenerative process is produced carries out the accessory substance reforming unit 33 of sulphur resource;
The cross section of adsorptive reactor 1 is a rectangle, and global shape is approximate cuboid.Adsorptive reactor can be divided into the activated coke at main part and main body two ends and import and export part; Because activated coke is imported and exported part and is adopted tower design, specifically can be referring to accompanying drawing 1, and main part is a cuboid; Therefore, we can say that adsorptive reactor is whole for being similar to cuboid.Adsorptive reactor 1 is that the two sections of composite bed are cross-flow moving bed, and adsorptive reactor 1 is made up of for two sections denitration section and desulfurization section; The denitration section comprises denitration section collection chamber 11, denitration district 5 and denitration section sub-air chamber 12; Desulfurization section comprises desulfurization section collection chamber 10, desulfurization zone 6 and desulfurization section sub-air chamber 9, and denitration district 5 is communicated with through being arranged on two intersegmental blanking channels 24 with desulfurization zone 6; Desulfurization section sub-air chamber 9 is communicated with a gas approach 21, and denitration section collection chamber 11 is communicated with an exhanst gas outlet 22, and desulfurization section collection chamber 10 is communicated with denitration section sub-air chamber 12 through a flue gas ammonia mixing chamber 26, and flue gas ammonia mixing chamber 26 is communicated with an ammonia import 25; Be provided with one between the denitration section of adsorptive reactor 1 and the desulfurization section and be used to clear up the cleaning passage 34 of desulfurization zone 6 and denitration district 5 activated coke; Cleaning passage 34 can be manhole or other structures.The outlet of the activated coke of adsorptive reactor 1 be provided with one be used to filter out broken activated coke and ammonium sulfate the vibratory sieve (not shown).Activated coke is in the process that falls; Having the part activated coke drops on the blanking channel 24; Because blanking channel 24 is the combination (one positive one anti-two funnels stack) of similar two conical hoppers, the viscous force of the increase of the ammonium sulfate that when reaction, generates might gather activated coke on blanking channel 24; Time need clear up once length, so has reserved cleaning passage 34 in the patent device.
When adsorptive reactor desulfurization zone 6 is provided with activated coke layering grid 23; Discharging opening 13 and back discharging opening 14 before adsorptive reactor 1 bottom is provided with; Discharging opening 13 is controlled the different blanking flow of activated coke with back discharging opening 14 through valve before described; Make the speed that moves under the preceding activated coke layer of activated coke particle in desulfurization zone and the back activated coke course different, strengthen efficient adsorption reaction desulfurized effect with the time of staying.
Such structure is provided with does separation again with desulfurization zone, helps the further purification of flue gas, at the preceding activated coke layer of adsorptive reactor, can realize the thick desulfurization of activated coke to flue gas, and flue gas obtains preliminary purification; At the back activated coke layer of adsorptive reactor, can realize active pyrogene desulfurization, flue gas continues to be purified, and realizes high-efficiency desulfurization.
Adsorptive reactor 1 top is provided with an adsorptive reactor storage tank 35, and the bottom is provided with one and mixes blanking bin 18, and activated coke falls from adsorptive reactor storage tank 35 and discharges from mixing blanking bin 18 through denitration district 5, blanking channel 24, desulfurization zone 6 backs successively;
The flue gas that flue gas generating means (being generally the smelting sintering machine, coal-burning boiler of factory the inside etc.) produces through the deduster dedusting after from gas approach get into successively through desulfurization section collection chamber 10, desulfurization zone 6, desulfurization section sub-air chamber 9 backs flue gas ammonia mixing chamber 26 in after ammonia mixes again successively through denitration section sub-air chamber 12, denitration district 5, denitration section collection chamber 11, pass through exhanst gas outlet 22 discharges at last.
In adsorptive reactor 1, because remaining SO 2With NH 3Reaction; Can generate a spot of ammonium sulfate; Though cleaning passage 34 is set in device, can periodic cleaning activated coke and ammonium sulfate, must also have the part of sulfuric acid ammonium salt and stick on the activated coke; Thereby increased the viscous force of activated coke, the translational speed of the activated coke that slowed down in adsorptive reactor 1.Therefore, this patent is provided with vibratory sieve at the adsorptive reactor hypomere, when separating broken activated coke and coke powder, also sieves out a part of ammonium sulfate and removes then, thereby reduce the viscous force in the activated coke motion.
Desorption and regeneration device 2 is the tubular structure of densely covered pipeline around a closed shell, comprises preheating zone 15, renewing zone 16, cooling zone 17; The regeneration gas that preheating zone 15, renewing zone 16 produce is entered into exhaust gas cleaner 32 by blower fan 27 suctions, and exhaust gas cleaner 32 mainly filters regeneration gas; And then enter into accessory substance reforming unit 33 and carry out the sulphur recycling treatment; Accessory substance reforming unit 33 can be concentrated sulfuric acid process units or Claus system sulphur unit or liquid SO 2Process units, the sulphur resource preparation facilities that these several kinds of devices all are comparative maturities on the market specifically repeats no more.Feeding heat medium in the pipeline of preheating zone 15 circulates; Feeding cooling medium in the pipeline of cooling zone 17 circulates; Heat medium is for being a kind of in nitrogen, vapours, hot-air or the high-temperature molten salt, and said cooling medium is a nitrogen.As shown in Figure 1, such as in the pipeline of preheating zone 15 nitrogen is arranged, cool down after the activated coke heating that nitrogen will fall in the preheating zone, and then after being heated through heater 29 under the driving of blower fan 27, enter into preheating zone 15 heating activated coke once more.And in the cooling zone 17, the nitrogen under the normal temperature constantly circulates in pipeline under the driving of blower fan 27, the heat of activated coke is taken out of, thereby activated coke is cooled down.
The below of desorption and regeneration device 2 is provided with the screening plant 30 that sieves of activated coke that is used for regeneration; Activated coke enters into desorption and regeneration device 2 from adsorptive reactor 1; In the process of whole absorption, desorption and regeneration, it is broken to have a little activated coke, if get in the circulation once more; Can increase the adsorptive reactor pressure drop and influence the desorption effect; Therefore activated coke is after screening plant 30 screenings, and a part of broken activated coke is disallowable through overbreak activated coke moving-out device 31, and the adsorptive reactor storage tank 35 that the activated coke that remaining activated coke is newly replenished together with a part enters into adsorptive reactor 1 top again circulates once more.
Screening plant 30 divides broken activated coke particle and the activated coke dressing sieve of size less than 1.5mm down, and broken activated coke is separated with coke powder; The activated coke that particle is bigger with the fresh activated coke of part of replenishing, through regeneration back activated coke conveyer belt 4, is transported to the adsorptive reactor storage tank 35 of adsorptive reactor 1 top, adds adsorptive reactor 1, and the adsorption reaction of carrying out next circulation removes.
Adsorptive reactor 1 below is provided with one and mixes blanking bin 18; Preceding activated coke layer 7 and corresponding respectively preceding discharging opening 13 in activated coke layer 8 below, back and back discharging opening 14; Entering mixed blanking bin 18 after activated coke the past discharging opening 13 fell with back discharging opening 14; Then through adsorbing the desorption and regeneration device storage tank 36 that back activated coke conveyer belt 3 is transported to the upper end of desorption and regeneration device 2; In the housing of desorption and regeneration device 2, fall to the back, enter into the adsorptive reactor storage tank 35 on adsorptive reactor 1 top through regeneration back activated coke conveyer belt 4 again with the fresh activated coke of part of replenishing.
This activated coke desulfurization denitrating system is through using adsorptive reactor 1,2 combinations of desorption and regeneration device, and flue gas has been removed the SO in the flue gas by the activated coke adsorption reaction in adsorptive reactor 1 2, NO x, pollutant such as mercury 、 bioxin and flue dust, the activated coke after the absorption enters into desorption and regeneration device 2 and carries out desorption, the activated coke behind the desorption can recycle again, the regeneration gas behind the desorption can carry out the sulphur recycling treatment through accessory substance reforming unit 33.
Further in depth; Consider that activated coke removes mercury in the flue gas with during bioxin; Mercury He bioxin in the activated coke layer enrichment of desorption and regeneration device 2 preheating zones 15; Need every through will therefore having designed special construction to the buried processing of activated coke discharging of preheating zone to one-year age half a year to desorption and regeneration device 2; Sandwich construction is adopted in preheating zone 15; A kind of typical three-decker comprises three preheating zone tremie pipe layers 38, be arranged on tremie pipe layer 38 top, preheating zone on get the bed of material 37 and be arranged on the material taking layer 39 of tremie pipe layer 38 below, preheating zone, carry out activated coke sampling or discharging post processing at the last bed of material 37 of getting with material taking layer 39.Simultaneously; Preheating zone 15, renewing zone 16 are provided with a regeneration gas body exhaust pipe respectively; The regeneration gas exhaust pipe that preheating zone 15 is provided with is first exhaust pipe and second exhaust pipe of two parallel connections; First exhaust pipe is arranged on to be got in the bed of material 37, and second exhaust pipe is arranged in the material taking layer 39; Thereby the by-pass valve control that is equipped with the control piper aperture on all regeneration gas exhaust pipes is convenient to control the rate of air sucked in required of each exhaust pipe; Like this according to different bioxin in the smoke treatment and mercury concentration and bioxin and the distribution of mercury in desorption and regeneration device 2; Desorption and regeneration gas is bled at the exhaust pipe of zones of different; Perhaps in particular cases combination is bled; Be lowered into Qi Tai bioxin and mercury concentration in the regeneration gas in the accessory substance reforming unit to greatest extent; Decomposing in the regeneration gas De bioxin and mercury absorption solidification in renewing zone 16 on the lower activated coke of preheating zone 15 temperature, be convenient to reduce De bioxin and mercury in the accessory substance and convenient to enrichment more preheating zone 15 activated coke of Duo bioxin and mercury carry out buried harmless treatment.
For lined out activity clearly is burnt, the flow direction of gas in flue gas and the desorption and regeneration device, mark with different lines respectively among Fig. 1, specifically text description is following:
Activated coke: activated coke is discharged to enter into from the bottom outlet of adsorptive reactor 1 through denitration district 5, blanking channel 24, desulfurization zone 6 backs successively from adsorptive reactor storage tank 35 whereabouts on adsorptive reactor 1 top and is mixed blanking bin 18; Through adsorbing desorption and regeneration device storage tank 36 that back activated coke conveyer belt 3 is transported to desorption and regeneration device 2 tops, enter into the adsorptive reactor storage tank 35 on adsorptive reactor 1 top again through regeneration back activated coke conveyer belt 4 then successively through entering into screening plant 30 with the fresh activated coke of part of replenishing behind the thermal treatment zone 15 of desorption and regeneration device 2, renewing zone 16, the cooling zone 17.
Flue gas: flue gas gets into from gas approach 21; Successively through desulfurization section sub-air chamber 9, desulfurization zone 6, desulfurization section collection chamber 10 backs in flue gas ammonia mixing chamber 26 with after ammonia mixes again successively through denitration section sub-air chamber 12, denitration district 5, denitration section collection chamber 11; Discharge through exhanst gas outlet 22 at last, under the traction of blower fan 27, discharge from chimney 28.
Gas in the desorption and regeneration device 2: (1) heat medium can be for a kind of in nitrogen, vapours, hot-air or the high-temperature molten salt; If be nitrogen; Cool down after the activated coke heating that nitrogen will fall in the thermal treatment zone 15, and then enter into the thermal treatment zone 15 heating activated coke once more after through heater 29 heating under the driving of blower fan 27.
(2) cooling medium, if also be nitrogen, in the cooling zone 17, the nitrogen under the normal temperature constantly circulates in pipeline under the driving of blower fan 27, the heat of activated coke is taken out of, thereby activated coke is cooled down.
(3) regeneration gas: regeneration gas gets into exhaust gas cleaner 32 and carries out tail gas clean-up under the driving of blower fan 27, get into accessory substance reforming unit 33 then and carry out the sulphur recycling treatment.
Concrete whole process comprises the steps:
(a) desulfurization denitration demercuration Tuo bioxin: flue gas enters into the desulfurization section of adsorptive reactor 1 from the gas approach 21 of adsorptive reactor 1, contacts with the activated coke cross-flow that falls from the top down, removes the SO in the flue gas 2、 bioxin and mercury; Flue gas mixes in flue gas ammonia mixing chamber 26 with the ammonia that feeds from ammonia import 25 through desulfurization section, and upwards flowing is horizontally through the denitration section, realizes denitrating flue gas, and removes SO remaining in the flue gas 2、 bioxin and mercury; Flue gas after being purified is discharged from the exhanst gas outlet 22 of adsorptive reactor 1;
(b) desorption and regeneration: activated coke gets into desorption and regeneration device 2 then from backward down the discharge from the activated coke outlet of activated coke inlet of adsorptive reactor 1; Activated coke is come out the sulfurous gas desorption of absorption in desorption and regeneration device 2, the regeneration gas that desorption comes out from the preheating zone 15, renewing zone 16 enters into accessory substance reforming unit 33 and carries out the sulphur recycling treatment; Activated coke after the regeneration back that falls in the housing of desorption and regeneration device 2 enters into adsorptive reactor 1 again together with the new activated coke of adding of part and circulates next time.
(c) activated coke is handled: in the preheating zone of desorption and regeneration device 2; Have absorption and enrichment mercury with the activated coke of bioxin; Will clear up displacement once after each process long period; Like running time through half a year to one year, concentrate activated coke discharging displacement with desorption and regeneration device 2 preheating zones, the activated coke that discharging is taken out according to danger useless admittedly carry out buried;
(d) accessory substance transforms: the desorption and regeneration gas of drawing from desorption and regeneration device 2 preheating zones, renewing zone, produce the concentrated sulfuric acid, sulphur or liquid SO through the accessory substance reforming unit 2, and carry out follow-up deep processing as required.
In the whole process flow, the adsorption temp of activated coke is 80-150 ℃, and desorption temperature is 350-450 ℃, flue gas air speed 280~500h -1, ammonia concentration is 1.0~1.5 times of NOx concentration in the flue gas.
In order to further specify the effect of the utility model system, we have carried out the case design, the Design Treatment exhaust gas volumn 3.2 * 10 of this patent system 6Nm 3/ h adopts the unit parallel connection of a plurality of adsorptive reactors to handle, 1 adsorptive reactor cell processing exhaust gas volumn 20 * 10 4Nm 3/ h is divided into two adsorptive reactor flue, and adsorptive reactor adopts modularization multiple-unit parallel connection design, and each adsorptive reactor is composed in parallel by 8 adsorptive reactor unit, and totally 16 adsorptive reactor unit design flue gas air speed 280~500h -1SO in the flue gas composition 2Volume fraction is 2000 * 10 -6, NO xVolume fraction is 600 * 10 -6, also contain Bu Fen bioxin, heavy metal ion mercury, harmful flue dust.Adsorption temp is at 120 ℃, and desorption temperature is at 400 ℃; Adsoption catalyst is qualified, the economical and practical column desulphurization denitration activated coke of performance.Through adsorptive reactor 1, remove the SO in the flue gas 2, NO xPollutants such as 、 bioxin and mercury are implemented in the adsorptive reactor 1 removing uniting of multiple pollutant.
Two kinds of operating modes have been designed: the flue gas air speed 300h of first kind of operating mode -1Second kind of operating mode flue gas air speed 400h -1, the activated coke loadings increases by 1.33 times than first kind of operating mode, increases by 1.33 times.The desulfurization degree of this patent system design is greater than 95%, and the denitration rate is greater than 70%, and Tuo bioxin and demercuration rate are greater than 90%, and the system of this patent and process have the integrated purifying property of good desulphurization denitration.
The utility model device can be used for the desulfurization denitration demercuration Tuo bioxin filed of flue gas purification of the coal-fired fired power generating unit of ultra supercritical, the large-scale smelting sintering machine more than 450 square metres, large coal-fired boiler, middle-size and small-size industry coal-boiler and other nonferrous metallurgy flue gas, sulfuric acid tail gas and the flue gas of refuse burning of the unit group 1000MW of coal-burning power plant.
Those skilled in the art will recognize that; The above-mentioned specific embodiment is exemplary; Be in order to make those skilled in the art can better understand this patent content; Should not be construed as is the restriction to this patent protection domain, changes or modifies so long as disclose spiritual any being equal to of being done according to this patent, all falls into this patent protection domain.

Claims (7)

1. activated coke desulfurization denitrating system, it is characterized in that: said system comprises adsorptive reactor (1), desorption and regeneration device (2), device for transporting objects and accessory substance reforming unit, connects through pipeline between said each device;
Said adsorptive reactor (1) is that the two sections of composite bed are cross-flow moving bed, and said adsorptive reactor (1) is made up of for two sections denitration section and desulfurization section; Said denitration section comprises denitration section collection chamber (11), denitration district (5) and denitration section sub-air chamber (12); Said desulfurization section comprises desulfurization section collection chamber (10), desulfurization zone (6) and desulfurization section sub-air chamber (9), and said denitration district (5) is communicated with through being arranged on two intersegmental blanking channels (24) with said desulfurization zone (6); Be provided with a flue gas ammonia mixing chamber (26) between said denitration section sub-air chamber (12) and the desulfurization section collection chamber (10); Said desulfurization section sub-air chamber (9) is communicated with a gas approach (21), and said denitration section collection chamber (11) is communicated with an exhanst gas outlet (22); Said desulfurization section collection chamber (10) is communicated with said denitration section sub-air chamber (12) through a flue gas ammonia mixing chamber (26), and said flue gas ammonia mixing chamber (26) is communicated with an ammonia import (25);
Said desorption and regeneration device (2) is used for the activated coke that said adsorptive reactor (1) is discharged is regenerated; Said desorption and regeneration device (2) is the tubular structure of densely covered pipeline around a closed shell, comprises preheating zone (15), renewing zone (16) and cooling zone (17); Said preheating zone (15), said renewing zone (16) are provided with a regeneration gas body exhaust pipe respectively, are equipped with the by-pass valve control of control piper aperture on the said regeneration gas exhaust pipe; The parallel connection of said regeneration gas exhaust pipe is linked in the said accessory substance reforming unit carries out the sulphur recycling treatment; Feeding heat medium in the pipeline of said preheating zone (15) and said renewing zone (16) circulates; Three-decker is adopted in said preheating zone (15), be respectively preheating zone tremie pipe layer (38), on get the bed of material (37) and material taking layer (39), get the bed of material (37) and said material taking layer (39) on said and carry out activated coke and take a sample or the discharging post processing; Feed cooling medium in the pipeline of said cooling zone (17) and carry out cool cycles;
Said device for transporting objects adopts the conveyer belt of sealing to carry activated coke; Said conveyer belt comprises absorption back activated coke conveyer belt (3) and regeneration back activated coke conveyer belt (4); Said absorption back activated coke conveyer belt (3) connects mixing blanking bin (18) that is arranged on said adsorptive reactor (1) below and the desorption and regeneration device storage tank (36) that is arranged on said desorption and regeneration device (2) top, and said regeneration back activated coke conveyer belt (4) connects screening plant (30) that is arranged on said desorption and regeneration device (2) below and the adsorptive reactor storage tank (35) that is arranged on said adsorptive reactor (1) top;
Said accessory substance reforming unit (33) is connected the desorption and regeneration gas that is used for regenerative process is produced with said renewing zone (16) and carries out the sulphur resource.
2. activated coke desulfurization denitrating system as claimed in claim 1; It is characterized in that: the cross section of said adsorptive reactor (1) is a rectangle; Whole for being similar to cuboid; The regeneration gas exhaust pipe that said preheating zone (15) is provided with is first exhaust pipe and second exhaust pipe of two parallel connections, and said first exhaust pipe is arranged on to be got in the bed of material (37) on said, and said second exhaust pipe is arranged in the said material taking layer (39).
3. activated coke desulfurization denitrating system as claimed in claim 1; It is characterized in that: an activated coke layering grid is set in the said desulfurization zone (6); Said desulfurization zone (6) is divided into preceding activated coke layer (7) and back activated coke layer (8); Said preceding activated coke layer (7) and activated coke layer (8) bottom, back correspondence respectively are provided with preceding discharging opening (13) and back discharging opening (14), and said preceding discharging opening (13) passes through the different blanking flow of valve control activated coke with back discharging opening (14).
4. activated coke desulfurization denitrating system as claimed in claim 1 is characterized in that: be provided with one between the denitration section of said adsorptive reactor (1) and the desulfurization section and be used to clear up the cleaning passage (34) of said desulfurization zone (6) and said denitration district (5) activated coke; The outlet of the activated coke of said adsorptive reactor (1) be provided with one be used to filter out broken activated coke and ammonium sulfate vibratory sieve.
5. activated coke desulfurization denitrating system as claimed in claim 1 is characterized in that: heat medium is a kind of in nitrogen, vapours, hot-air or the high-temperature molten salt in the described desorption and regeneration device (2), and said cooling medium is a nitrogen.
6. activated coke desulfurization denitrating system as claimed in claim 1 is characterized in that: the below of said desorption and regeneration device (2) is provided with the screening plant (30) that sieves of activated coke that is used for regeneration.
7. activated coke desulfurization denitrating system as claimed in claim 1 is characterized in that: said accessory substance reforming unit is concentrated sulfuric acid process units, Claus system sulphur unit or liquid SO 2Process units.
CN2011204451384U 2011-11-11 2011-11-11 Activated coke flue gas desulfurization and denitrification system Withdrawn - After Issue CN202289840U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2011204451384U CN202289840U (en) 2011-11-11 2011-11-11 Activated coke flue gas desulfurization and denitrification system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2011204451384U CN202289840U (en) 2011-11-11 2011-11-11 Activated coke flue gas desulfurization and denitrification system

Publications (1)

Publication Number Publication Date
CN202289840U true CN202289840U (en) 2012-07-04

Family

ID=46358825

Family Applications (1)

Application Number Title Priority Date Filing Date
CN2011204451384U Withdrawn - After Issue CN202289840U (en) 2011-11-11 2011-11-11 Activated coke flue gas desulfurization and denitrification system

Country Status (1)

Country Link
CN (1) CN202289840U (en)

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102430318A (en) * 2011-11-11 2012-05-02 上海克硫环保科技股份有限公司 System for desulfurizing and denitrating active coke flue gas, and process method
CN102824846A (en) * 2012-09-24 2012-12-19 上海龙净环保科技工程有限公司 Axial and radial cross flow moving bed reactor and activated coke flue gas desulfurization and denitration technology thereof
CN102824810A (en) * 2012-09-21 2012-12-19 中冶长天国际工程有限责任公司 Adsorption column
CN104014231A (en) * 2014-06-20 2014-09-03 上海龙净环保科技工程有限公司 Smoke gas purification system with integrated function of desulfuration, denitration and demercuration and purification process
CN104289103A (en) * 2014-09-03 2015-01-21 长春天工环境系统有限公司 Multifunctional flue gas desulfurization and denitration system and desulfurization and denitration method
WO2018000857A1 (en) * 2016-06-30 2018-01-04 中冶长天国际工程有限责任公司 Flue gas desulfurization and denitrification method and device
CN107537297A (en) * 2016-06-29 2018-01-05 中国石油化工股份有限公司 The flue gas circulation desulfuration technique of clean environment firendly
CN110559851A (en) * 2019-09-30 2019-12-13 中冶东方工程技术有限公司 Ultra-low temperature modularization flue gas denitration system
CN110898608A (en) * 2018-09-18 2020-03-24 中国石化工程建设有限公司 System and method for adsorbing and purifying flue gas by using active coke
CN111974185A (en) * 2020-08-21 2020-11-24 武汉淡蓝环保科技开发有限公司 Ammonia desulphurization and dust removal integrated flue gas ultralow emission device and use method thereof
CN109432948B (en) * 2018-11-22 2021-08-31 中冶长天国际工程有限责任公司 Multi-process flue gas purification system and control method and device thereof
CN115178089A (en) * 2022-08-11 2022-10-14 国能锅炉压力容器检验有限公司 Purify and regenerate charcoal base catalyst flue gas processing apparatus of one tower ization

Cited By (20)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102430318A (en) * 2011-11-11 2012-05-02 上海克硫环保科技股份有限公司 System for desulfurizing and denitrating active coke flue gas, and process method
CN102824810A (en) * 2012-09-21 2012-12-19 中冶长天国际工程有限责任公司 Adsorption column
CN102824810B (en) * 2012-09-21 2015-05-13 中冶长天国际工程有限责任公司 Adsorption column
CN102824846A (en) * 2012-09-24 2012-12-19 上海龙净环保科技工程有限公司 Axial and radial cross flow moving bed reactor and activated coke flue gas desulfurization and denitration technology thereof
CN104014231A (en) * 2014-06-20 2014-09-03 上海龙净环保科技工程有限公司 Smoke gas purification system with integrated function of desulfuration, denitration and demercuration and purification process
CN104014231B (en) * 2014-06-20 2015-11-11 上海龙净环保科技工程有限公司 A kind of integrated desulfurizing denitration demercuration flue gas purification system and process for purifying
CN104289103A (en) * 2014-09-03 2015-01-21 长春天工环境系统有限公司 Multifunctional flue gas desulfurization and denitration system and desulfurization and denitration method
CN104289103B (en) * 2014-09-03 2016-06-22 长春天工环境系统有限公司 Multifunctional smoke system for desulfuration and denitration and desulfurization denitration method
CN107537297A (en) * 2016-06-29 2018-01-05 中国石油化工股份有限公司 The flue gas circulation desulfuration technique of clean environment firendly
KR20180095064A (en) * 2016-06-30 2018-08-24 종예 창티엔 인터내셔날 엔지니어링 컴퍼니 리미티드 Flue gas desulfurization and denitrification methods and apparatus
WO2018000857A1 (en) * 2016-06-30 2018-01-04 中冶长天国际工程有限责任公司 Flue gas desulfurization and denitrification method and device
RU2685136C1 (en) * 2016-06-30 2019-04-16 Чжуне Чантянь Интернэшнл Инджиниринг Ко., Лтд. Method of flue gas desulphurization and denitration and a device
KR102122673B1 (en) 2016-06-30 2020-06-12 종예 창티엔 인터내셔날 엔지니어링 컴퍼니 리미티드 Method and apparatus for flue gas desulfurization and denitrification
CN110898608A (en) * 2018-09-18 2020-03-24 中国石化工程建设有限公司 System and method for adsorbing and purifying flue gas by using active coke
CN110898608B (en) * 2018-09-18 2022-02-08 中国石化工程建设有限公司 System and method for adsorbing and purifying flue gas by using active coke
CN109432948B (en) * 2018-11-22 2021-08-31 中冶长天国际工程有限责任公司 Multi-process flue gas purification system and control method and device thereof
CN110559851A (en) * 2019-09-30 2019-12-13 中冶东方工程技术有限公司 Ultra-low temperature modularization flue gas denitration system
CN111974185A (en) * 2020-08-21 2020-11-24 武汉淡蓝环保科技开发有限公司 Ammonia desulphurization and dust removal integrated flue gas ultralow emission device and use method thereof
CN115178089A (en) * 2022-08-11 2022-10-14 国能锅炉压力容器检验有限公司 Purify and regenerate charcoal base catalyst flue gas processing apparatus of one tower ization
CN115178089B (en) * 2022-08-11 2024-01-23 国能锅炉压力容器检验有限公司 Purifying and regenerating one-tower carbon-based catalyst flue gas treatment device

Similar Documents

Publication Publication Date Title
CN102430318B (en) System for desulfurizing and denitrating active coke flue gas, and process method
CN202289840U (en) Activated coke flue gas desulfurization and denitrification system
CN102824846B (en) Axial and radial cross flow moving bed reactor and activated coke flue gas desulfurization and denitration technology thereof
CN100496676C (en) Wet ammonia flue gas cleaning technology simultaneously removing various pollutant and system thereof
CN105413326B (en) A kind of activated coke flue gas purification system
CN101279186B (en) Flue gas dry-type method for simultaneously desulfurizing and denitrating
CN107596798B (en) Pre-dedusting, desulfurizing and denitrating integrated treatment device and method
CN101422691A (en) Multi-pollutant removing technique and device of fuel coal smoke
CN102512927A (en) Integrated flue gas desulfurizing and denitrating purification system and purification technology for same
CN101279197B (en) Red mud-active carbon compound flue gas circulation and regeneration system for desulfuration and denitration
CN111346605B (en) Pollutant comprehensive treatment system and method suitable for large-scale coal-fired power plant
CN103349892A (en) Cross-flow type two-stage moving bed active coke waste gas integrated purification tower
CN104548809A (en) Active coke desulfurization and denitrification and membrane separation dust removal integrated system and treatment method
CN202620999U (en) Desulfurization and denitration integrated flue gas cleaning system
CN211988670U (en) Pollutant comprehensive treatment system suitable for large coal-fired power plant
CN103463960A (en) Desulfurization and purification method of flue gas desulfurization and purification system
CN101810981B (en) Efficient low-resistance cross-flow type moving bed desulfurizing tower
CN202762307U (en) Axial and radial cross-flow moving bed type adsorption reactor for smoke desulphurization and denitration utilizing activated coke
CN202942787U (en) Switchable flue gas purification system for pollutant removal process and adsorbent regeneration process
CN201020334Y (en) Desulfurization denitration integrative smoke purifying device
CN206424781U (en) Horizontal modularization flue gas desulfurization and denitrification absorption regeneration integral system
CN103203182A (en) Flue gas combined desulfurization denitration demercuration device and method
CN206240331U (en) Vertical single hop modularization flue gas desulfurization and denitrification absorption/regenerating unit
CN102423604A (en) Combined type flue gas desulfurization and denitration device
CN204395780U (en) A kind of combined desulfurization and denitration fluidized bed plant based on active carbon and low temperature catalyst

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Granted publication date: 20120704

Effective date of abandoning: 20140604

RGAV Abandon patent right to avoid regrant