CN1276096C - Gas base reduction iron-smelting method and apparatus - Google Patents
Gas base reduction iron-smelting method and apparatus Download PDFInfo
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- CN1276096C CN1276096C CN 02153662 CN02153662A CN1276096C CN 1276096 C CN1276096 C CN 1276096C CN 02153662 CN02153662 CN 02153662 CN 02153662 A CN02153662 A CN 02153662A CN 1276096 C CN1276096 C CN 1276096C
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Abstract
The present invention discloses a gas base reduction iron smelting method and a device thereof, which takes hydrogen containing, hydrocarbon containing gases and coke or coal as raw materials. The method of the present invention takes hydrogen containing hydrocarbon containing gases and coke or coal as raw materials, reducing gases are prepared in a synthetic gas preparation furnace, the prepared reducing gases enter a reduction iron smelting reactor via desulphurization so as to reduce and produce sponge iron of hot briquette, and generated tail gases are pressurized by a tail gas blower fan so as to return the synthetic gas preparation furnace for cyclic use. The device of the present invention comprises the synthetic gas preparation furnace, the reduction iron preparation reactor, the reduction gas devulcanizer, the tail gas blower fan and a valve. All the components are connected as a circulation system by pipelines, the tail gases generated from reduction iron preparation enter the synthetic gas preparation furnace from the reduction iron preparation reactor via the tail gas blower fan, and the tail gases are circulated and reused. The present invention increases the utilization ratio of raw materials and heat, reduces environmental pollution, solves the limitation of natural gas resources and has low energy consumption and low equipment investment.
Description
Technical field
The invention belongs to the reduction iron-smelting method field, particularly a kind of is the gas base reduction iron-smelting method and the device thereof of raw material with hydrogeneous, gas containing hydrocarbon and coke or coal.
Background technology
The sponge iron of gas base reduction iron production production and hot wafering are the necessary raw materials of smelting the high-quality steel, the output sustainable growth of world's sponge iron and hot wafering in recent ten years.Along with the fast development of Electric furnace steel making, to the demand of sponge iron or hot wafering with increasing.In China, because aspects such as technology and resources, the output of sponge iron and quality far do not satisfy the needs that the high-quality steel is produced at present, all need import every year.
With Mi27rex and HYL be representative be that the gas base production of sponge iron of source of the gas is sophisticated in the world at present production method with the Sweet natural gas, gone into operation and adopted these two kinds of methods in the gas base reduction iron production factory overwhelming majority of building.Gas base reduction iron-smelting method as the fine ore handled of future thrust still is in developmental stage at present, does not also have additive method to drop into suitability for industrialized production except that the Fior method, and the output of hot wafering also only accounts for the very little part of reduced iron output.China emphasis iron and steel enterprise is positioned at the eastern region away from neutralizing gas mostly, and the pipe network Gas Prices is higher, has limited the employing of these two kinds of methods economically.So far, China does not also have to adopt in a large number the gas base reducing sponge iron production method of Sweet natural gas to go into operation, and the production of hot wafering is then almost blank.At present, domestic sponge iron production has the shortcoming of energy consumption height, easy ring formation based on the coal-based rotary kiln method, and working rate is low, only tens0000 tons of annual production.China produces steel big country as the first in the world, and the output of high-quality steel and quality but can not satisfy domestic required, and lacking the high-quality sponge iron is one of reason.After entering WTO, domestic each big steel enterprise will be in the face of the severe challenge of external iron and steel enterprise, if the dependence on import sponge iron is to satisfy the needs that the high-quality steel is produced, difficult and external competition on the cost fully.At this situation, the gas base reduction iron production production method that exploitation has independent intellectual property right, suitable china natural resources situation and smelter present situation has great importance.
Be that the gas base reduction iron-smelting method of source of the gas is actually rare both at home and abroad with Steel Plant's by-product gas.At present, except that South Africa Sa Erdaniya (Sal27anha) Steel Plant realized with Corex tail gas carry out the gas base also the original production sponge iron flow process relatively the success, additive method all is in the starting stage.
The overall throughput of the existing coke oven of Iron and Steel Enterprises in China is approximately 1.3 hundred million tons/year, application along with every power-saving technology, particularly oxygen coverter, continuous casting and rolling and near net shape continuous casting technology is universal, and some advanced smelters have begun to manifest the phenomenon of coke-oven gas surplus.Exploitation is the feedstock production reducing gas with coke-oven gas and coke or coal, carries out the production of gas base reduction iron production, can make full use of the resources advantage of the cheap and smelter coke-oven gas surplus of coal in China, avoids the high difficulty of China's pipe network Gas Prices.
Summary of the invention
One of purpose of the present invention is to have raw material and heat utilization ratio is low, the restriction that is subjected to natural gas source, heavy-polluted shortcoming at prior art, thereby a kind of gas base reduction iron-smelting method is provided.Another object of the present invention is to have energy consumption height, the high shortcoming of facility investment at existing apparatus, thereby a kind of gas base reduction iron production device is provided.
The object of the present invention is achieved like this:
Gas base reduction iron-smelting method provided by the invention is characterized in that, may further comprise the steps successively;
(1) gas, water vapour and the oxygen of at first using hydrogeneous, hydrocarbonaceous is as unstripped gas, with coke or coal gas as reductive agent in the furnace for preparing synthesis gas of gas base reduction iron production device, adopting ordinary method to produce main component is H
2The reducing gas of+CO; Wherein hydrogeneous, the gas of hydrocarbonaceous and the gas-solid mol ratio of coke or coal gas are 0-1, and water vapour and oxygen mol ratio are 0.5-1.5, and oxygen and coke or coal gas mol ratio are 0.5-1;
(2) reducing gas that step (1) is produced enters in the reducing gas devulcanizer of gas base reduction iron production device, carries out desulfurization with lime masonry sweetening agent under 850-950 ℃, and wherein, the Wingdale add-on is by handling 1m
3Contain 5%H
2The reducing gas of S is calculated needs to add the 0.16-0.33Kg Wingdale;
(3) reducing gas through step (2) desulfurization enters in the reduction iron production reactor of gas base reduction iron production device again, and according to a conventional method ferric charge is reduced into iron;
(4) tail gas that step (3) is produced directly pressurizes and sends furnace for preparing synthesis gas back to as the raw material cycling and reutilization, and wherein, added air pressure will guarantee that tail gas can enter furnace for preparing synthesis gas smoothly, and furnace for preparing synthesis gas can ordinary production be advisable.
Hydrogeneous, the hydrocarbon-containing feedstock of described step (1) is any in coke-oven gas, refinery gas, the Sweet natural gas.
Comprise that also the reacted Wingdale of step (2) utilizes sweetening agent self to grind in the sweetening agent treater, behind the CaS that the removal limestone surfaces generates, the Wingdale that obtains continues to use in transmission mechanism returns the reducing gas devulcanizer.
Described ferric charge is a kind of in agglomerate, lump ore, pellet or the fine ore.
Gas base reduction iron production device provided by the invention comprises:
One furnace for preparing synthesis gas, reduction iron production reactor, exhaust fan and valve; It is characterized in that, also comprise the reducing gas devulcanizer, sweetening agent inlet is arranged at its top, and a lower side ancient piece of jade, round, flat and with a hole in its centre has reducing gas inlet, and a upper side ancient piece of jade, round, flat and with a hole in its centre has the outlet of one second reducing gas, and a waste outlet is arranged at its bottom; Wherein the outlet of the tail gas of reduction iron production reactor is communicated with by pipeline A with the unstripped gas inlet of furnace for preparing synthesis gas, be connected with exhaust fan and valve on this pipeline A, the outlet of first reducing gas of furnace for preparing synthesis gas is communicated with by pipeline B with the reducing gas inlet of reducing gas devulcanizer, and second reducing gas of reducing gas devulcanizer exports with the nozzle of reduction iron production reactor and is communicated with by pipeline C (only illustrate among the figure pipeline C).
The bottom waste outlet of described reducing gas devulcanizer also connects a sweetening agent treater, and this sweetening agent treater is connected with the sweetening agent inlet of reducing gas devulcanizer by transmission mechanism.
Described gas base reduction iron production device also is included in and also is communicated with a threeway on the pipeline A, and wherein, threeway one end is communicated with gaspipe network.
Described furnace for preparing synthesis gas, the furnace for preparing synthesis gas top of being somebody's turn to do also have one group of unstripped gas inlet.
Described reduction iron production reactor is a kind of in shaft furnace formula reactor or the multistage moving fluid bed reactor.
The nozzle of described shaft furnace formula reactor is that the shaft along shaft furnace formula reactor vertically is provided with the 1-3 group, and every group of nozzle has 3-9.
Described shaft furnace formula reactor, there is a N at the middle part of this shaft furnace formula reactor
2Outlet, this N
2Outlet is by pipeline E and shaft furnace formula reactor lower part one N
2Inlet is communicated with, and this pipeline E goes up order and is connected with dedusting, heat reclaim unit, the threeway of band valve, cooling blower; Threeway the 3rd port and N
2Pipeline is communicated with.
Described gas base reduction iron production device is characterized in that, described exhaust fan is a kind ofly can handle the high temperature dust Air fan.
The present invention compared with prior art has following advantage:
(1) gas base reduction iron-smelting method provided by the invention is to be raw material with hydrogeneous, gas containing hydrocarbon and coke or coal, its instead of natural gas is used for the production of reducing gas, broken away from the restriction that gas base reduction iron production is subjected to natural gas supply, solved the higher problem of pipe network Gas Prices, it is cheap to have made full use of coal in China, the advantage that the coking ability is bigger.
(2) production process of method is easy to control, constant product quality.
(3) raw material, heat utilization ratio height greatly reduce cost.
(4) method of the present invention adopts multistage moving fluid bed reduction iron production reactor as ferric charge when handling fine ore, has cancelled the agglomeration process, further saved investment, produced product and can make hot wafering, this product Heat stability is good, need not Passivation Treatment, be easy to transportation and preservation.
Therefore (5) one of gas base reduction iron production device major parts provided by the invention is a furnace for preparing synthesis gas, and is can be with the most of iron and steel enterprises of China retired or be about to retired medium and small blast furnace and transform furnace for preparing synthesis gas as, thereby reduces facility investment significantly.In addition, Steel Plant mostly have the shaft furnace knowhow, thereby investment risk is little.China's sponge iron huge market demand, the sponge iron of production are removed for our factory's production to be needed, but the redundance export trade.
(6) use apparatus and method of the present invention to carry out gas base reduction iron production, realized emission-free or a small amount of discharging, environmental pollution is little.
Description of drawings
Fig. 1 is a reduction iron production device composition diagram of the present invention
Wherein
3 threeways 4 of furnace for preparing synthesis gas 1 exhaust fan 2 valves
Reducing gas devulcanizer 5 reduction iron production reactors 6 dedustings, heat reclaim unit 7
Cooling blower 8 nozzles 9 charging openings 10
Unstripped gas 11 first reducing gas that enter the mouth export 12 reducing gas inlet 13
Sweetening agent treater 14 waste outlets 15 sweetening agents inlet 16
Second reducing gas exports 17 tail gas and exports 18 ferric charges inlet 19
Gaspipe network 20 products exports 21 N
2Outlet 22
Threeway 23 N of band valve
225 N enter the mouth
2Pipeline 26
Transmission mechanism 27 pipeline A, B, C, E
Concrete embodiment
Embodiment 1
Prepare a cover gas base reduction iron production device by Fig. 1.
With the shaft furnace formula reactor described in No. the 4439233rd, the United States Patent (USP) as reduction iron production reactor 6, the unstripped gas inlet 11 of the outlet 18 of its tail gas and furnace for preparing synthesis gas 1 is communicated with the sort of shaft furnace formula reactor of Chinese No. 01134806.2 patent disclosure of furnace for preparing synthesis gas 1 employing by pipeline A.Be connected with on this pipeline A exhaust fan 2, valve 3 and threeway 4, wherein, threeway 4 also is communicated with gaspipe network 20; The outlet 12 of first reducing gas of furnace for preparing synthesis gas 1 and the reducing gas of shaft furnace formula reducing gas devulcanizer 5 enter the mouth and 13 are communicated with by pipeline B; The nozzle 9 of the outlet 17 of second reducing gas of shaft furnace formula reducing gas devulcanizer 5 and reduction iron production reactor 6 is communicated with by pipeline C (only illustrate among the figure pipeline C).
Embodiment 2
Adopt the device of embodiment 1, carry out gas base reduction iron production according to the following steps:
(1) adding inbound traffics from furnace for preparing synthesis gas 1 top feeding mouth 10 is the 650kg/h coke, and feeding flow from furnace for preparing synthesis gas 1 lower feed gas inlet 11 is 600Nm
3The water vapour of/h coke-oven gas, 200kg/h, 320Nm
3The oxygen of/h, reaction obtains containing H under normal pressure, adiabatic condition
2The reducing gas of+CO96%;
What (2) step (1) is generated contains H
2The reducing gas of+CO95% feeds in the shaft furnace formula reducing gas devulcanizer 5, is that sweetening agent carries out desulfurization under 860 ℃, with the Wingdale, and the add-on of Wingdale is by handling 1m
3Reducing gas is calculated needs to add the 0.16Kg Wingdale, and the waste material of generation is discharged from waste outlet 15;
(3) reducing gas after step (2) desulfurization enters the reduction iron production reactor 6 from the nozzle 9 of reduction iron production reactor 6, under the normal pressure adiabatic condition, will be that the acid pellet that 5000kg/h enters is reduced into sponge iron by flow from reduction iron production reactor 6 top ferric charges inlet 19.
(4) a part of tail gas that step (3) is produced enters gaspipe network 20 for the fuel use by threeway 4, and most of waste gas utilization exhaust fan 2 directly pressurization is sent furnace for preparing synthesis gas back to as the raw material cycling and reutilization.
Make the sponge iron of iron content 94% at last.
Embodiment 3
Connect a cover gas base reduction iron production device by Fig. 1.
With the equipment described in No. 4439233 patent of the U.S. as reduction iron production reactor 6, the unstripped gas inlet 11 of the outlet 18 of its tail gas and furnace for preparing synthesis gas 1 is communicated with furnace for preparing synthesis gas 1 employing No. 01134806.2 disclosed equipment of China Patent No. or common shaft furnace formula reactor by pipeline A.Be connected with on this pipeline A exhaust fan 2, valve 3 and threeway 4, wherein, threeway 4 also is communicated with gaspipe network 20; The reducing gas inlet 13 of the outlet 12 of first reducing gas of furnace for preparing synthesis gas 1 and reducing gas devulcanizer 5 is communicated with reducing gas devulcanizer 5 bottoms connection sweetening agent treater 14 by pipeline B; Waste outlet 15 is arranged at the bottom of this sweetening agent treater 14, and sweetening agent treater 14 connects transmission belt 27, and this transmission belt 27 is connected with the sweetening agent inlet 16 of reducing gas devulcanizer 5; The nozzle 9 of the outlet 17 of second reducing gas of reducing gas devulcanizer 5 and reduction iron production reactor 6 is communicated with by pipeline C (only illustrate among the figure pipeline C).The N at reduction iron production reactor 6 middle parts
2Outlet 22 is by the N of pipeline E and reduction iron production reactor 6 bottoms
2Inlet 25 connects, and this pipeline E goes up threeway 23, the cooling blower 8 that connects tornado dust collector and waste heat boiler (dedusting, heat recovery system 7), is with valve, the 3rd end and the N of the threeway 23 of band valve
2Pipeline 26 is communicated with.
Embodiment 4
Adopt the device of embodiment 3, carry out gas base reduction iron production according to the following steps:
(1) adding inbound traffics from furnace for preparing synthesis gas 1 top feeding mouth 10 is the 630kg/h coke, and feeding flow from furnace for preparing synthesis gas 1 lower feed gas inlet 11 is 590Nm
3The water vapour of/h coke-oven gas, 180kg/h, 310Nm
3The oxygen of/h, reaction obtains containing H under normal pressure, adiabatic condition
2The reducing gas of+CO95%;
What (2) step (1) is generated contains H
2The reducing gas of+CO95% feeds in the shaft furnace formula reducing gas devulcanizer 5, is that sweetening agent carries out desulfurization under 850 ℃, with the Wingdale, and the add-on of Wingdale is by handling 1m
3Reducing gas is calculated needs to add the 0.16Kg Wingdale; In the sweetening agent treater 14 of shaft furnace formula reducing gas devulcanizer 5 bottoms, utilize this self-grind in rotating cylinder of sweetening agent, the CaS that the surface is generated separates with unreacted Wingdale, the unreacted Wingdale that obtains returns by transmission belt 27 and continues in the shaft furnace formula reducing gas devulcanizer 5 to use, and the CaS of generation discharges from the waste outlet 15 of the bottom of sweetening agent treater 14;
(3) reducing gas after step (2) desulfurization enters the reduction iron production reactor 6 from the nozzle 9 of reduction iron production reactor 6, under the normal pressure adiabatic condition, will be that the acid pellet that 4800kg/h enters is reduced into sponge iron by flow from reduction iron production reactor 6 top ferric charges inlet 19; The sponge iron that reduction obtains enters reduction iron production reactor 6 bottoms; Open cooling blower 8 from N
2Pipeline 26 is introduced N
2, through N
2Inlet 25 enters reduction iron production reactor 6 bottoms, sponge iron is cooled off and Passivation Treatment the N after the intensification
2N by reduction iron production reactor 6 middle parts
2Outlet 22 is discharged, and after tornado dust collector and waste heat boiler (dedusting, heat recovery system 7) carry out heat recuperation and dust removal process, makes N by cooling blower 8 pressurizations again
2Enter reduction iron production reactor 6 bottoms smoothly, realize N
2Recycle.
(4) a part of tail gas that step (3) is produced enters gaspipe network 20 for the fuel use by threeway 4, and most of waste gas utilization exhaust fan 2 directly pressurization is sent furnace for preparing synthesis gas back to as the raw material cycling and reutilization.
Make the sponge iron of iron content 89% at last.
Embodiment 5
Prepare a cover gas base reduction iron production device by Fig. 1.
With China No. 9841960.0 disclosed multistage moving fluid bed reactor as reduction iron production reactor 6, the unstripped gas inlet 11 of the outlet 18 of its tail gas and furnace for preparing synthesis gas 1 is communicated with furnace for preparing synthesis gas 1 employing No. 01134806.2 disclosed equipment of China Patent No. or common shaft furnace formula reactor by pipeline A.Be connected with on this pipeline A exhaust fan 2, valve 3 and threeway 4, wherein, threeway 4 also is communicated with gaspipe network 20; The reducing gas inlet 13 of the outlet 12 of first reducing gas of furnace for preparing synthesis gas 1 and shaft furnace formula reducing gas devulcanizer 5 is communicated with by pipeline B, and second reducing gas of shaft furnace formula reducing gas devulcanizer 5 exports 17 and is communicated with by pipeline C (only illustrate among the figure pipeline C) with the nozzle 9 of reduction iron production reactor 6.
Embodiment 6
Adopt the device of embodiment 5, carry out gas base reduction iron production according to the following steps:
(1) add the coke that inbound traffics are 680kg/h from furnace for preparing synthesis gas 1 top feeding mouth 10, feeding flow from furnace for preparing synthesis gas 1 lower feed gas inlet 11 is 590Nm
3The refinery gas of/h, the water vapour of 200kg/h, 300Nm
3The oxygen of/h, reaction obtains containing H under the normal pressure adiabatic condition
2The reducing gas of+CO97%;
(2) in the reducing gas feeding shaft furnace formula reducing gas devulcanizer 5 that step (1) generates, be that sweetening agent carries out desulfurization under 900 ℃, with the Wingdale, wherein the add-on of Wingdale is by handling 1m
3Reducing gas is calculated needs to add the 0.30Kg Wingdale, and the waste material of generation is discharged from waste outlet 15;
(3) reducing gas after step (2) desulfurization enters reduction iron production reactor 6 from the nozzle 9 of reduction iron production reactor 6, under the normal pressure adiabatic condition, to be that the fine ore of 4900kg/h is reduced into iron powder from reduction iron production reactor 6 top ferric charges 19 flows that enter the mouth, the gained metal powder electric furnace of can directly packing into, adopt the device in the U.S. 6214081B1 patent to carry out hot wafering again, obtain hot wafering;
(4) a part of tail gas that step (3) is produced enters gaspipe network 20 for the fuel use by threeway 4, and most of waste gas utilization exhaust fan 2 directly pressurization is sent furnace for preparing synthesis gas back to as the raw material cycling and reutilization.
Make the hot wafering of iron content 90% at last.
Embodiment 7
Prepare a cover gas base reduction iron production device by Fig. 1.
With China No. 9841960.0 patent disclosure multistage moving fluid bed reactor as reduction iron production reactor 6, the unstripped gas inlet 11 of the outlet 18 of its tail gas and furnace for preparing synthesis gas 1 is communicated with furnace for preparing synthesis gas 1 employing No. 01134806.2 disclosed equipment of Chinese patent or common shaft furnace formula reactor by pipeline A.Be connected with on this pipeline A exhaust fan 2, valve 3 and threeway 4, wherein, threeway 4 also is communicated with gaspipe network 20; The outlet 12 of first reducing gas of furnace for preparing synthesis gas 1 and the reducing gas of shaft furnace formula reducing gas devulcanizer 5 enter the mouth and 13 are communicated with by pipeline B; Shaft furnace formula reducing gas devulcanizer 5 bottoms connect sweetening agent treater 14, and waste outlet 15 is arranged at the bottom of this sweetening agent treater 14, and sweetening agent treater 14 connects transmission belt 27, and this transmission belt 27 is connected with the sweetening agent inlet 16 of shaft furnace formula reducing gas devulcanizer 5; The nozzle 9 of the outlet 17 of second reducing gas of shaft furnace formula reducing gas devulcanizer 5 and reduction iron production reactor 6 is communicated with by pipeline C (only illustrate among the figure pipeline C).
Embodiment 8
Adopt the device of embodiment 7, carry out gas base reduction iron production according to the following steps:
(1) furnace for preparing synthesis gas 1 top feeding mouth 10 adds the coke that inbound traffics are 700kg/h, and feeding flow from furnace for preparing synthesis gas 1 lower feed gas inlet 11 is 600Nm
3The refinery gas of/h, the water vapour of 190kg/h, 320Nm
3The oxygen of/h, reaction obtains containing H under the normal pressure adiabatic condition
2The reducing gas of+CO98%;
(2) in the reducing gas feeding reducing gas devulcanizer 5 that step (1) generates, be that sweetening agent carries out desulfurization under 900 ℃, with the Wingdale, wherein the add-on of Wingdale is by handling 1m
3Reducing gas is calculated needs to add the 0.33Kg Wingdale; In the sweetening agent treater 14 of the bottom of reducing gas devulcanizer 5, utilize this self-grind in rotating cylinder of sweetening agent, the CaS that the surface is generated separates with unreacted Wingdale, the unreacted Wingdale that obtains returns by transmission belt 27 and continues in the reducing gas devulcanizer 5 to use, and the CaS of generation discharges from the waste outlet 15 of the bottom of sweetening agent treater 14;
(3) reducing gas after step (2) desulfurization enters reduction iron production reactor 6 from the nozzle 9 of reduction iron production reactor 6, under the normal pressure adiabatic condition, to be that the fine ore of 4700kg/h is reduced into iron powder from reduction iron production reactor 6 top ferric charges 19 flows that enter the mouth, the gained metal powder electric furnace of can directly packing into, adopt the device in the U.S. 6214081B1 patent to carry out hot wafering again, obtain hot wafering;
(4) a part of tail gas that step (3) is produced enters gaspipe network 20 for the fuel use by threeway 4, and most of waste gas utilization exhaust fan 2 directly pressurization is sent furnace for preparing synthesis gas back to as the raw material cycling and reutilization.
Make the hot wafering of iron content 97% at last.
Embodiment 9
Adopt the device of embodiment 3, carry out gas base reduction iron production by the step of embodiment 4, wherein,
Step (1) adds the coal that inbound traffics are 710kg/h from the former charging opening 10 of furnace for preparing synthesis gas 1 top solid, feeds water vapour, the 300Nm of 360kg/h from furnace for preparing synthesis gas 1 unstripped gas inlet 11 (being included in one group of unstripped gas inlet that furnace for preparing synthesis gas 1 top increases)
3The oxygen of/h, reaction obtains containing H under the normal pressure adiabatic condition
2The reducing gas of+CO96%
The add-on of the Wingdale of step (2) is by handling 1m
3Reducing gas is calculated to be needed to add the 0.28Kg Wingdale, 900 ℃ of following desulfurization.
Step (3) adds the agglomerate that inbound traffics are 4600kg/h.
Other are with embodiment 1.
Finally obtain 92% sponge iron.
Embodiment 10
Adopt the device of embodiment 7, carry out gas base reduction iron production by the step of embodiment 8, wherein,
Step (1) adds the coke that inbound traffics are 750kg/h from the former charging opening 10 of furnace for preparing synthesis gas 1 top solid material, and feeding flow from furnace for preparing synthesis gas 1 lower feed gas inlet 11 is 400Nm
3The Sweet natural gas of/h, the water vapour of 400kg/h, 500Nm
3The oxygen of/h, reaction obtains containing H under the normal pressure adiabatic condition
2The reducing gas of+CO96%;
The add-on of the Wingdale of step (2) is by handling 1m
3Reducing gas is calculated to be needed to add the 0.18Kg Wingdale, 950 ℃ of following desulfurization.
Step (3) adds the fine ore that inbound traffics are 5000kg/h.
Other are with embodiment 2.
Obtain 90% hot wafering at last.
Claims (12)
1, a kind of gas base reduction iron-smelting method is characterized in that, may further comprise the steps successively:
(1) with gas, water vapour and the oxygen of hydrogeneous, hydrocarbonaceous as unstripped gas, as reductive agent, in the furnace for preparing synthesis gas of gas base reduction iron production device, adopting ordinary method to produce main component is H with coke or coal gas
2The reducing gas of+CO; Wherein hydrogeneous, the gas of hydrocarbonaceous and the mol ratio of coke or coal gas are 0-1, and water vapour and oxygen mol ratio are 0.5-1.5, and oxygen and coke or coal gas mol ratio are 0.5-1;
(2) reducing gas that step (1) is produced enters in the reducing gas devulcanizer of gas base reduction iron production device, with lime masonry sweetening agent, carries out desulfurization under 850-950 ℃, and wherein, the add-on of Wingdale is by handling 1m
3Contain 5%H
2The reducing gas of S is calculated needs to add the 0.16-0.33Kg Wingdale;
(3) reducing gas after step (2) desulfurization enters in the reduction iron production reactor of gas base reduction iron production device and according to a conventional method ferric charge is reduced into iron;
(4) tail gas that utilizes exhaust fan that step (3) is produced directly pressurizes and sends furnace for preparing synthesis gas back to as the raw material cycling and reutilization, and wherein, added air pressure is to guarantee that tail gas can enter furnace for preparing synthesis gas smoothly, and furnace for preparing synthesis gas can ordinary production be as the criterion.
2, gas base reduction iron-smelting method as claimed in claim 1 is characterized in that, hydrogeneous, the hydrocarbon-containing feedstock of step (1) is a kind of in coke-oven gas, refinery gas, the Sweet natural gas.
3, gas base reduction iron-smelting method as claimed in claim 1 is characterized in that, also comprises the reacted Wingdale of step (2), enters the sweetening agent processor processing, behind the CaS that the removal limestone surfaces generates, returns and continues in the reducer devulcanizer to use.
4, gas base reduction iron-smelting method as claimed in claim 1 is characterized in that, described ferric charge is a kind of in agglomerate, lump ore, pellet or the fine ore.
5, a kind of device of gas base reduction iron-smelting method special use of claim 1 comprises:
One furnace for preparing synthesis gas (1), reduction iron production reactor (6), exhaust fan (2) and valve (3); It is characterized in that, also comprise reducing gas devulcanizer (5), sweetening agent inlet (16) is arranged at this reducing gas devulcanizer (5) top, and a lower side ancient piece of jade, round, flat and with a hole in its centre has reducing gas inlet (13), a upper side ancient piece of jade, round, flat and with a hole in its centre has one second reducing gas outlet (17), and a waste outlet (15) is arranged at its bottom; The tail gas outlet (18) of described reduction iron production reactor (6) is communicated with by pipeline (A) with the unstripped gas inlet (11) of furnace for preparing synthesis gas (1), be connected with exhaust fan (2) and valve (3) on this pipeline (A), wherein first reducing gas of furnace for preparing synthesis gas (1) outlet (12) is communicated with by pipeline (B) with the reducing gas inlet (13) of reducing gas devulcanizer (5), and second reducing gas outlet (17) of reducing gas devulcanizer is communicated with by pipeline (C) with the nozzle (9) of reduction iron production reactor (6).
6, the device of gas base reduction iron-smelting method as claimed in claim 5 special use, it is characterized in that, the bottom waste outlet (15) of described reducing gas devulcanizer (5) also connects a sweetening agent treater (14), and this sweetening agent treater (14) is connected with the sweetening agent inlet (16) of reducing gas devulcanizer (5) by transmission mechanism (27).
7, the device of gas base reduction iron-smelting method as claimed in claim 5 special use is characterized in that, also is included in also to be communicated with a threeway (4) on the pipeline (A), and wherein, threeway (4) one ends are communicated with gaspipe network (20).
8, the device of gas base reduction iron-smelting method as claimed in claim 5 special use is characterized in that, the top of described furnace for preparing synthesis gas (1) also has one group of unstripped gas inlet (11).
9, the device of gas base reduction iron-smelting method as claimed in claim 5 special use is characterized in that, described reduction iron production reactor (6) is a kind of in shaft furnace formula reactor or the multistage moving fluid bed reactor.
10, the device of gas base reduction iron-smelting method as claimed in claim 9 special use is characterized in that, the shaft of described shaft furnace formula reactor vertically is provided with 1-3 group nozzle (9), and every group has 3-9 nozzle (9).
11, the device of gas base reduction iron-smelting method as claimed in claim 9 special use is characterized in that, there is a N at the middle part of described shaft furnace formula reactor
2Outlet (22), this outlet (22) is by pipeline (E) and shaft furnace formula reactor lower part one N
2Inlet (25) is communicated with, and this pipeline (E) is gone up order and is connected with dedusting, heat reclaim unit (7), the threeway (23) and the cooling blower (8) of band valve; The 3rd port and the N of this threeway (23)
2Pipeline (26) is communicated with.
12, the device of gas base reduction iron-smelting method as claimed in claim 5 special use is characterized in that, described exhaust fan (2) is a kind ofly can handle the high temperature dust Air fan.
Priority Applications (1)
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CN 02153662 CN1276096C (en) | 2002-12-03 | 2002-12-03 | Gas base reduction iron-smelting method and apparatus |
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CN 02153662 CN1276096C (en) | 2002-12-03 | 2002-12-03 | Gas base reduction iron-smelting method and apparatus |
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CN1504582A CN1504582A (en) | 2004-06-16 |
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KR101235252B1 (en) * | 2005-12-26 | 2013-02-20 | 주식회사 포스코 | Method for manufacturing molten irons by injecting a hydrocarbon gas and apparatus for manufacturing molten irons using the same |
JP5053011B2 (en) * | 2007-09-19 | 2012-10-17 | 株式会社神戸製鋼所 | Temperature control method for reduced iron for hot forming |
CN101307370B (en) * | 2008-07-11 | 2010-10-13 | 深圳市华夏基业投资担保有限公司 | Method for simultaneously producing sponge iron and water-gas |
DE102009022510B4 (en) * | 2009-05-25 | 2015-03-12 | Thyssenkrupp Industrial Solutions Ag | Process for the simultaneous production of iron and a raw synthesis gas containing CO and H2 |
CN101638702B (en) * | 2009-08-14 | 2011-07-20 | 中冶赛迪工程技术股份有限公司 | Recycling method of outlet gas in direct reduction process using gas as reducing gas |
CN101775455B (en) * | 2010-01-12 | 2011-08-17 | 贾会平 | Iron reduction device |
CN102864265B (en) * | 2012-09-24 | 2014-05-28 | 中南大学 | Method for recycling gas-base direct reducted tail gas |
CN106702065A (en) * | 2016-12-20 | 2017-05-24 | 江苏省冶金设计院有限公司 | Novel system and novel method for preparing sponge iron through gas-based shaft kiln |
CN108795457A (en) * | 2018-06-28 | 2018-11-13 | 东北大学 | A kind of device and method being pyrolyzed Gas Production direct reduced iron using low-order coal |
CN109868335B (en) * | 2019-03-19 | 2021-01-26 | 重庆大学 | System and method for closed-loop utilization of tail gas in iron ore reduction process |
CN115522006A (en) * | 2021-06-25 | 2022-12-27 | 中晋冶金科技有限公司 | Gas-based direct reduction iron-making process for accelerating reaction |
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