CN204563900U - Tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system - Google Patents
Tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system Download PDFInfo
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- CN204563900U CN204563900U CN201520181733.XU CN201520181733U CN204563900U CN 204563900 U CN204563900 U CN 204563900U CN 201520181733 U CN201520181733 U CN 201520181733U CN 204563900 U CN204563900 U CN 204563900U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/10—Process efficiency
- Y02P20/129—Energy recovery, e.g. by cogeneration, H2recovery or pressure recovery turbines
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/30—Wastewater or sewage treatment systems using renewable energies
- Y02W10/37—Wastewater or sewage treatment systems using renewable energies using solar energy
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Abstract
The utility model discloses a kind of tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system, comprise air-introduced machine, column for smoke purification, air-introduced machine and coke oven flue, column for smoke purification connects, column for smoke purification comprises heat pipe-type waste water ager, crystallization tank, flue gas oxidation reactor, flue gas washing tower, heat pipe-type waste water ager and waste water circulation pump, water wasting groove connects, heat pipe-type waste water ager and distilled ammonia wastewater pump, wastewater heat exchange device connects, heat pipe-type waste water ager and alkali lye measuring pump, complete condenser connects, complete condenser and ammoniacal liquor cooler, aqua ammonia pump connects, being connected with flue gas washing tower of aqua ammonia pump, complete condenser, ammoniacal liquor cooler is connected with process cooling water, heat pipe-type waste water ager and flue gas heat-exchange unit, light beam generator connects, light beam generator is connected with flue gas oxidation reactor, flue gas through flue gas heat-exchange unit heat exchange laggard enter flue collector emptying through chimney, crystallization tank improves crystallization pump and is connected with coke-stove gas Ammonium sulfate production system.
Description
Technical field
The utility model relates to waste heat of coke-oven flue gas and utilizes and desulphurization denitration equipment technical field, particularly relates to a kind of tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system, is widely used in coker.
Background technology
" coking chemistry emission of industrial pollutants standard " (GBl6171-2012) the regulation coke oven chimney SO from 1 day January in 2015 promulgated by national environmental protection portion, State Administration for Quality Supervision and Inspection and Quarantine for 2012
250mg/m is respectively with emission limits of nitrogen oxides
3and 500mg/m
3.After this standard promulgation is implemented, with coal be process raw material, with coke-stove gas be a large amount of coal chemical enterprise of fuel of heat supply and each research institution all in research how from Sources controlling, how efficiently to reduce SO discharged gas fume
2, amount of nitrogen oxides aspect done a large amount of pilot study and pilot scale, but successful commercialization implement very few.Industrialization and at the coke oven flue gas desulphurization denitration dominating process route of pilot scale be just: UTILIZATION OF VESIDUAL HEAT IN → denitrating flue gas → flue gas desulfurization, ubiquity denitrification efficiency is on the low side, it is high to invest, produce new reluctant trade waste, energy consumption is higher, process conditions require the problems such as harsh.
SO in coke oven chimney exhaust gas
2, nitrogen oxide mainly from (1) coke oven heating coke-stove gas burning generated; (2) in coke oven heating coke-stove gas, organic sulfur, itrogenous organic substance burning generated; (3) coking furnace shaft blowby causes raw coke oven gas to enter combustion system, and the burnings such as wherein contained sulfide, nitride and itrogenous organic substance matter generated, the SO in three
2, nitrogen oxide all derives from full sulphur in stove mixed coal and nitride.Control coke oven chimney SO
2the means of discharge mainly contain the front desulfurization (coal-washing technique and coke oven gas desulfurization technology) of burning and the rear desulfurization (flue gas desulfurization) of burning, and after burning, flue gas desulfurization technique controls SO in air at present
2discharge an effective and most widely used desulfur technology; Denitration (denitrating flue gas) technology after the control technology primary combustion of coke oven flue gas NOx.
Utility model content
The purpose of this utility model is exactly the problems referred to above existed for solving prior art, provides a kind of tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system; The utility model makes full use of the technique waste water of flue gas waste heat distillation and concentration height ammonia-nitrogen content, extracts low concentration ammoniacal liquor; Then lower-cost strong oxidizer hydrogen peroxide (H is utilized
2o
2) to SO in UTILIZATION OF VESIDUAL HEAT IN cooling rear pass gas
2, nitrogen oxide is oxidized; Under low concentration ammoniacal liquor sprays, finally reduce the SO in flue gas further
2content, by SO in flue gas
2, conversion of nitrogen oxides is ammonium sulfate and the ammonium nitrate of stable in properties.Not only achieve the UTILIZATION OF VESIDUAL HEAT IN of flue gas, and achieve flue gas integration desulfurization denitration, turn waste into wealth, the byproduct (NH that productive value is higher
4)
2sO
4with ammonium nitrate byproduct, do not produce new discarded object in processing procedure, the distilled ammonia wastewater after process does not produce any impact to subsequent biochemical depths reason.
The technical scheme of the utility model technical solution problem is:
A kind of tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system, comprise air-introduced machine, column for smoke purification, described air-introduced machine air inlet is connected with the main coke oven flue of coke oven basement, described coke oven flue is provided with turning plate valve, the air inlet of air-introduced machine is connected with the coke oven flue of turning plate valve front portion, the flue collector of turning plate valve front portion is connected with coke oven exhaust opening, the gas outlet of air-introduced machine is connected with column for smoke purification, described column for smoke purification comprises the heat pipe-type waste water ager connected successively from bottom to top, crystallization tank, flue gas oxidation reactor, flue gas washing tower, described heat pipe-type waste water ager is connected with waste water circulation pump by wastewater heat exchange device and pipeline, waste water circulation pump is connected by pipeline with water wasting groove, be connected with distilled ammonia wastewater pump water inlet pipe bottom described heat pipe-type waste water ager, distilled ammonia wastewater water pump outlet pipe is connected with wastewater heat exchange device, waste water sends pipeline outside by entering distilled ammonia wastewater after the heat exchange of wastewater heat exchange device, described heat pipe-type waste water ager is connected with alkali lye measuring pump, alkali lye measuring pump is connected with lye tank (vat), described heat pipe-type waste water ager top is connected with complete condenser, complete condenser is connected with ammoniacal liquor cooler by pipeline, ammoniacal liquor cooler is connected with Ammonia vessel, Ammonia vessel bottom is connected with the inlet channel of aqua ammonia pump, the outlet conduit of aqua ammonia pump is connected with flue gas washing tower, described complete condenser is connected with technical cooling waterpipe, ammoniacal liquor cooler is connected with technical cooling waterpipe, described heat pipe-type waste water ager top is connected with flue gas heat-exchange unit by pipeline, the top of flue gas washing tower is connected with the inlet end of light beam generator with after flue gas heat-exchange unit heat exchange by pipeline, the outlet side of light beam generator is connected with flue gas oxidation reactor, after flue gas heat-exchange unit heat exchange, the flue collector after turning plate valve is entered by the flue gas after the cooling of heat pipe-type waste water ager, flue collector after turning plate valve is connected with chimney through underground flue, by emptying through chimney for the flue gas after heat exchange, the bottom of described crystallization tank is connected with crystallization pump water inlet pipeline by pipeline, crystallization water pump outlet pipe road is connected with coke-stove gas Ammonium sulfate production system.
Be connected with compressed air piping bottom described crystallization tank.
Described flue gas oxidation reactor is connected with hydrogen peroxide measuring pump by light beam generator and pipeline, and hydrogen peroxide measuring pump is connected with hydrogen peroxide storage tank.
Described flue gas washing tower top is provided with mist eliminator, and low concentration ammoniacal liquor insufflation showerhead is located at mist eliminator bottom.
Described turning plate valve adopts high-temperature flue butterfly valve, described high-temperature flue butterfly valve comprises valve rod, valve plate, ring flange, valve plate is connected with valve rod, ring flange valve plate is connected with top chock, step, top chock is provided with upper bearing, and step is provided with lower bearing, and valve rod two ends are connected respectively with upper bearing, lower bearing, valve rod upper end is connected with motor output shaft, and ring flange is connected with flue by bolt.
Described ring flange inner chamber is provided with high-alumina refractory fiber soak liner by casting, and upper bearing, lower bearing are provided with protective sleeve, and valve plate adopts 3Cr25Ni20 material, and valve plate two sides increase gusset.By high-alumina refractory fiber soak liner of casting at valve inner, the installation bearing of valve body is provided with protective sleeve, avoids bearing to contact with high-temperature flue gas; Valve plate adopts 3Cr25Ni20 material, and valve plate two sides increase gusset, and intensity is good, high-temperature corrosion resistance, reduces operation and maintenance cost.Flap valve to be connected with flue with bolt by the ring flange of valve body and to fix, and is convenient to mount and dismount.
The beneficial effects of the utility model:
1. the utility model utilizes the technique waste water of flue gas waste heat distillation and concentration height ammonia-nitrogen content, extracts low concentration ammoniacal liquor; Then strong oxidizer hydrogen peroxide (H is utilized
2o
2) to SO in UTILIZATION OF VESIDUAL HEAT IN cooling rear pass gas
2, nitrogen oxide is oxidized; Under low concentration ammoniacal liquor sprays, finally reduce the SO in flue gas further
2content, by SO in flue gas
2, conversion of nitrogen oxides is ammonium sulfate and the ammonium nitrate of stable in properties, not only achieve the UTILIZATION OF VESIDUAL HEAT IN of flue gas, and achieve flue gas integration desulfurization denitration, turn waste into wealth, the byproduct (NH that productive value is higher
4)
2sO
4with ammonium nitrate byproduct, new discarded object is not produced in processing procedure, distilled ammonia wastewater after process does not produce any impact to subsequent biochemical depths reason, transformation covering device system footprint area is little, investment cost and operating cost low, improve internal energy utilization rate, reduce energy consumption, be widely used in coal chemical enterprise, oil refining enterprise etc., popularizing application prospect is wide.
2. the utility model utilizes flue gases of cock oven Heat Treatment coking chemical waste water, and the low concentrated ammonia liquor produced after process is directly as the alkali source of deep desulfuration; In addition a tower coke oven flue steam distillation waste water, integration desulfurization denitration device, Proper Match flue gas UTILIZATION OF VESIDUAL HEAT IN and refuse reclamation, plant area area is little, construction cost and operating cost low.
3. the utility model utilizes lower-cost strong oxidizer hydrogen peroxide (H
2o
2) to SO in UTILIZATION OF VESIDUAL HEAT IN cooling rear pass gas
2, nitrogen oxide is oxidized, and do not produce new discarded object in processing procedure, the distilled ammonia wastewater after process does not produce any impact to subsequent biochemical depths reason.
4. the structural modification of the utility model to prior art is little, only needs to make part amendment to flue, and integrated engineering amount is little, and transformation or newly-built coke oven can use, and the scope of application is wide.
5., by high-alumina refractory fiber soak liner of casting at valve inner, the installation bearing of valve body is provided with protective sleeve, avoids bearing to contact with high-temperature flue gas; Valve plate adopts 3Cr25Ni20 material, and valve plate two sides increase gusset, and intensity is good, high-temperature corrosion resistance, reduces operation and maintenance cost.Flap valve to be connected with flue with bolt by the ring flange of valve body and to fix, and is convenient to mount and dismount.
Accompanying drawing explanation
Fig. 1 is tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and the simultaneous SO_2 and NO removal system architecture schematic diagram of utility model;
Fig. 2 is coke oven flue collector reprint valve mechanism formula intention.
Detailed description of the invention
In order to understand the utility model better, explain embodiment of the present utility model in detail below in conjunction with accompanying drawing.
As Fig. 1, shown in Fig. 2, a kind of tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system, comprise air-introduced machine 1, column for smoke purification 2, described air-introduced machine 1 air inlet is connected with the main coke oven flue of coke oven basement, described coke oven flue is provided with turning plate valve 24, the air inlet of air-introduced machine 1 is connected with the coke oven flue of turning plate valve front portion, the flue collector of turning plate valve 24 front portion is connected with coke oven exhaust opening, the gas outlet of air-introduced machine 1 is connected with column for smoke purification 2, described column for smoke purification 2 comprises the heat pipe-type waste water ager 16 connected successively from bottom to top, crystallization tank 13, flue gas oxidation reactor 14, flue gas washing tower 15, described heat pipe-type waste water ager 16 is connected with waste water circulation pump 20 by wastewater heat exchange device 18 and pipeline, waste water circulation pump 20 is connected by pipeline with water wasting groove 22, be connected with distilled ammonia wastewater pump 17 water inlet pipe bottom described heat pipe-type waste water ager 16, distilled ammonia wastewater pump 17 outlet pipe is connected with wastewater heat exchange device 18, waste water sends pipeline 27 outside by entering distilled ammonia wastewater after wastewater heat exchange device 18 heat exchange.Described heat pipe-type waste water ager 16 is connected with alkali lye measuring pump 5, and alkali lye measuring pump 5 is connected with lye tank (vat) 3.Described heat pipe-type waste water ager 16 top is connected with complete condenser 6, complete condenser 6 is connected with ammoniacal liquor cooler 7 by pipeline, ammoniacal liquor cooler 7 is connected with Ammonia vessel 8, and Ammonia vessel 8 bottom is connected with the inlet channel of aqua ammonia pump 9, and the outlet conduit of aqua ammonia pump 9 is connected with flue gas washing tower 15.Described complete condenser 6 is connected with technical cooling waterpipe, and ammoniacal liquor cooler 7 is connected with technical cooling waterpipe.Described heat pipe-type waste water ager 16 top is connected with flue gas heat-exchange unit 12 by pipeline, the top of flue gas washing tower 15 is connected with the inlet end of light beam generator 28 with after flue gas heat-exchange unit 12 heat exchange by pipeline, the outlet side of light beam generator 28 is connected with flue gas oxidation reactor 14, after flue gas heat-exchange unit 12 heat exchange, the flue collector after turning plate valve 24 is entered by the flue gas after the cooling of heat pipe-type waste water ager 16, flue collector after turning plate valve 24 is connected with chimney 25 through underground flue, by emptying through chimney for the flue gas after heat exchange.The bottom of described crystallization tank 13 is connected with crystallization pump 23 inlet channel by pipeline, and crystallization pump 23 outlet conduit is connected with coke-stove gas Ammonium sulfate production system 26.
In prior art, most coke oven adopts clean coke-stove gas or provides thermal source as firing tunnel in coking furnace to coke oven through the mixed steam of coke-stove gas and blast furnace gas, though clean coke oven is through purified treatment, but wherein ammonia, hydrogen sulfide, tar fog equal size are higher, very easily make flue occur the situation of deposit and corrosion; In addition, effluent gas temperature 280-290 DEG C, Long-Time Service, easily there is slight deformation in flue flap valve.
Described turning plate valve 24 adopts high-temperature flue butterfly valve, described high-temperature flue butterfly valve comprises valve rod 246, valve plate 247, ring flange 245, valve plate 247 is connected with valve rod 246, ring flange 245 valve plate is connected with top chock 248, step 249, top chock 248 is provided with upper bearing 242, step 249 is provided with lower bearing 250, valve rod 246 two ends are connected respectively with upper bearing 242, lower bearing 250, valve rod 246 upper end is connected with motor 251 output shaft, and ring flange 245 is connected with flue by bolt.
Ring flange 245 inner chamber is provided with high-alumina refractory fiber soak liner 241 by casting, and upper bearing 242, lower bearing 250 are provided with protective sleeve 243, and valve plate adopts 3Cr25Ni20 material, and valve plate two sides increase gusset 244.。By high-alumina refractory fiber soak liner of casting at valve inner, the installation bearing of valve body is provided with protective sleeve, avoids bearing to contact with high-temperature flue gas; Valve plate adopts 3Cr25Ni20 material, and valve plate two sides increase gusset, and intensity is good, high-temperature corrosion resistance, reduces operation and maintenance cost.Flap valve to be connected with flue with bolt by the ring flange of valve body and to fix, and is convenient to mount and dismount.
Be connected with compressed air piping bottom described crystallization tank 13.
Described flue gas oxidation reactor 14 is connected with hydrogen peroxide measuring pump 11 by light beam generator 28 and pipeline, and hydrogen peroxide measuring pump 11 is connected with hydrogen peroxide storage tank 10.
Described flue gas washing tower 15 top is provided with mist eliminator 19, and low concentration ammoniacal liquor insufflation showerhead 29 is located at mist eliminator 19 bottom.
Operation principle of the present utility model and the course of work:
Under the effect of air-introduced machine, coke oven basement flue collector 280-290 DEG C of flue gas is drawn, enter heat pipe-type waste water ager part, under flue gas heating, existed with addition of the form that the free ammonia in the technique waste water of the high ammonia-nitrogen content of certain alkali lye is ammonia vapour by alkali lye measuring pump, ammonia vapour, steam vapour enters complete condenser successively, ammoniacal liquor cooler, be condensed into liquid low concentrated ammonia liquor (10%-16%) and enter ammonia vessel, bottom distilled ammonia wastewater delivers to Sewage advanced treatment operation by waste water pump extraction with the water inlet of heat pipe-type waste water ager is outer after the heat exchange of wastewater heat exchange device is lowered the temperature, enter flue gas oxidation reactor together with the hydrogen peroxide that flue gas and hydrogen peroxide measuring pump are carried after the cooling of heat pipe-type waste water evaporator heat exchange, in flue gas oxidation reactor, hydrogen peroxide is by SO in flue gas
2, nitrogen oxide is oxidized, flue gas after peroxidization enters flue gas washing part, contacts with the low concentrated ammonia liquor of top spray is reverse, non-complete oxidation SO in flue gas
2react with low concentrated ammonia liquor free ammonia and generate (NH
4)
2sO
3, desulfurization rear pass gas discharges flue gas washing tower through mist eliminator except after liquid, is rich in (NH
4)
2sO
3absorbing liquid through from flowing into crystallization tank, what oxidation reactor produced is rich in (NH
4)
2sO
4, NH
4nO
3and the unreacted H of part
2o
2(the NH that liquid and flue gas washing tower section generate
4)
2sO
3, (NH
4)
2sO
4liquid mixes, (NH
4)
2sO
3air and H is blasted bottom crystallization tank
2o
2under oxidation, reaction generates (NH
4)
2sO
4, with crystallization pump by (NH bottom crystallization tank
4)
2sO
4and NH
4nO
3be sent by pumping to former coke-stove gas Ammonium sulfate production system, the flue gas got rid of through flue gas washing tower carries out at flue gas heat-exchange unit the underground flue that heat exchange heats up after about 150 DEG C after flue collector flap valve sent into by pipeline with from heat pipe-type waste water ager flue gas out, emptying through chimney.Specifically:
1) heat pipe-type waste water ager part: 280-290 DEG C of flue gas in coke oven Main Underground flue is drawn by air-introduced machine, enter heat pipe-type waste water ager part, under flue gas heating, existed with addition of the form that the free ammonia in the technique waste water of the high ammonia-nitrogen content of certain alkali lye is ammonia vapour by alkali lye measuring pump, ammonia vapour, steam vapour enters complete condenser successively, ammoniacal liquor cooler, be condensed into liquid low concentrated ammonia liquor (10%-16%) and enter ammonia vessel, heat exchange that bottom distilled ammonia wastewater is extracted out by waste water pump and heat pipe-type waste water ager is intake is outer after lowering the temperature delivers to Sewage advanced treatment operation, enter flue gas heat-exchange unit from heat pipe-type waste water ager flue gas out, carry out heat exchange with desulphurization denitration rear pass gas, heat exchange cooling rear pass gas enters oxidation reactor and carries out desulphurization denitration.
2) flue gas oxidation reactor part: enter flue gas oxidation reactor together with the hydrogen peroxide that flue gas and hydrogen peroxide measuring pump are carried after the cooling of heat pipe-type waste water evaporator heat exchange, hydrogen peroxide is by SO in flue gas in flue gas oxidation reactor
2, nitrogen oxide is oxidized, and arranges the light beam generator of a certain amount of wavelength at 200-280nm, H before hydrogen peroxide measuring pump is exported to flue outside hydrogen peroxide pipeline
2o
2issue third contact of a total solar or lunar eclipse decomposition reaction in light beam generator effect and generate OH, H and HO
2free radical, free radical is by H
2o
2the SO of middle dissolving
2, NO, NO
2be oxidized:
HSO
3 -+2·OH→SO
4 2-+H
2O+H
+
HO
2·+2NO→2HNO
2+O
2
·OH+NO
2→NO
3 -+H
+
Oxidation reactor bottom liquid is from the crystallization tank flowing into oxidator bottom, and flue gas enters flue gas washing tower section.
3) flue gas washing tower section: the flue gas after peroxidization enters flue gas washing part, contacts with the low concentrated ammonia liquor of top spray is reverse, non-complete oxidation SO in flue gas
2react with low concentrated ammonia liquor free ammonia and generate (NH
4)
2sO
3, desulfurization rear pass gas discharges flue gas washing tower through mist eliminator except after liquid; Be rich in (NH
4)
2sO
3absorbing liquid through from flowing into crystallization tank.
4) crystallization tank part: what oxidation reactor produced is rich in (NH
4)
2sO
4, NH
4nO
3and the unreacted H of part
2o
2(the NH that liquid and flue gas washing tower section generate
4)
2sO
3, (NH
4)
2sO
4liquid mixes; (NH
4)
2sO
3air and H is blasted bottom crystallization tank
2o
2under oxidation, reaction generates (NH
4)
2sO
4; With crystallization pump by (NH bottom crystallization tank
4)
2sO
4and NH
4nO
3be sent by pumping to former coke-stove gas Ammonium sulfate production system.
The desulphurization denitration rear pass gas got rid of through flue gas washing tower with from the heat exchange again of heat pipe-type waste water ager heat exchange rear pass gas, the heat exchange of desulphurization denitration rear pass gas heats up after about 150 DEG C and sends into the underground flue after flue collector flap valve through pipeline, emptying through chimney; Heat exchange cooling rear pass gas enters oxidation reactor and carries out desulphurization denitration.
By reference to the accompanying drawings the detailed description of the invention of utility model is described although above-mentioned; but the restriction not to the utility model protection domain; on the basis of the technical solution of the utility model, those skilled in the art do not need to pay various amendment or distortion that creative work can make still within protection domain of the present utility model.
Claims (6)
1. a tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system, it is characterized in that, comprise air-introduced machine, column for smoke purification, described air-introduced machine air inlet is connected with the main coke oven flue of coke oven basement, described coke oven flue is provided with turning plate valve, the air inlet of air-introduced machine is connected with the coke oven flue of turning plate valve front portion, the flue collector of turning plate valve front portion is connected with coke oven exhaust opening, the gas outlet of air-introduced machine is connected with column for smoke purification, described column for smoke purification comprises the heat pipe-type waste water ager connected successively from bottom to top, crystallization tank, flue gas oxidation reactor, flue gas washing tower, described heat pipe-type waste water ager is connected with waste water circulation pump by wastewater heat exchange device and pipeline, waste water circulation pump is connected by pipeline with water wasting groove, be connected with distilled ammonia wastewater pump water inlet pipe bottom described heat pipe-type waste water ager, distilled ammonia wastewater water pump outlet pipe is connected with wastewater heat exchange device, waste water sends pipeline outside by entering distilled ammonia wastewater after the heat exchange of wastewater heat exchange device, described heat pipe-type waste water ager is connected with alkali lye measuring pump, alkali lye measuring pump is connected with lye tank (vat), described heat pipe-type waste water ager top is connected with complete condenser, complete condenser is connected with ammoniacal liquor cooler by pipeline, ammoniacal liquor cooler is connected with Ammonia vessel, Ammonia vessel bottom is connected with the inlet channel of aqua ammonia pump, the outlet conduit of aqua ammonia pump is connected with flue gas washing tower, described complete condenser is connected with technical cooling waterpipe, ammoniacal liquor cooler is connected with technical cooling waterpipe, described heat pipe-type waste water ager top is connected with flue gas heat-exchange unit by pipeline, the top of flue gas washing tower is connected with the inlet end of light beam generator with after flue gas heat-exchange unit heat exchange by pipeline, the outlet side of light beam generator is connected with flue gas oxidation reactor, after flue gas heat-exchange unit heat exchange, the flue collector after turning plate valve is entered by the flue gas after the cooling of heat pipe-type waste water ager, flue collector after turning plate valve is connected with chimney through underground flue, by emptying through chimney for the flue gas after heat exchange, the bottom of described crystallization tank is connected with crystallization pump water inlet pipeline by pipeline, crystallization water pump outlet pipe road is connected with coke-stove gas Ammonium sulfate production system.
2. tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN as claimed in claim 1 and simultaneous SO_2 and NO removal system, is characterized in that, be connected bottom described crystallization tank with compressed air piping.
3. tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN as claimed in claim 1 and simultaneous SO_2 and NO removal system, is characterized in that, described flue gas oxidation reactor is connected with hydrogen peroxide measuring pump by light beam generator and pipeline, and hydrogen peroxide measuring pump is connected with hydrogen peroxide storage tank.
4. tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN as claimed in claim 1 and simultaneous SO_2 and NO removal system, is characterized in that, described flue gas washing tower top is provided with mist eliminator, and low concentration ammoniacal liquor insufflation showerhead is located at mist eliminator bottom.
5. tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN as claimed in claim 1 and simultaneous SO_2 and NO removal system, it is characterized in that, described turning plate valve adopts high-temperature flue butterfly valve, described high-temperature flue butterfly valve comprises valve rod, valve plate, ring flange, valve plate is connected with valve rod, ring flange valve plate is connected with top chock, step, top chock is provided with upper bearing, step is provided with lower bearing, valve rod two ends are connected respectively with upper bearing, lower bearing, valve rod upper end is connected with motor output shaft, and ring flange is connected with flue by bolt.
6. tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN as claimed in claim 5 and simultaneous SO_2 and NO removal system; it is characterized in that; described ring flange inner chamber is provided with high-alumina refractory fiber soak liner by casting, and upper bearing, lower bearing are provided with protective sleeve, and valve plate two sides increase gusset.
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CN201520181733.XU CN204563900U (en) | 2015-03-27 | 2015-03-27 | Tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system |
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CN201520181733.XU CN204563900U (en) | 2015-03-27 | 2015-03-27 | Tower flue gases of cock oven UTILIZATION OF VESIDUAL HEAT IN and simultaneous SO_2 and NO removal system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104707454A (en) * | 2015-03-27 | 2015-06-17 | 山东钢铁股份有限公司 | Residual heat utilization and simultaneous desulfurization and denitrification system for tower type coke oven flue gas |
-
2015
- 2015-03-27 CN CN201520181733.XU patent/CN204563900U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104707454A (en) * | 2015-03-27 | 2015-06-17 | 山东钢铁股份有限公司 | Residual heat utilization and simultaneous desulfurization and denitrification system for tower type coke oven flue gas |
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