CN109402386A - It is a kind of promote red mud iron alum recovery compound additive and its preparation, application method - Google Patents
It is a kind of promote red mud iron alum recovery compound additive and its preparation, application method Download PDFInfo
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- CN109402386A CN109402386A CN201811292660.6A CN201811292660A CN109402386A CN 109402386 A CN109402386 A CN 109402386A CN 201811292660 A CN201811292660 A CN 201811292660A CN 109402386 A CN109402386 A CN 109402386A
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- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
- C22B1/00—Preliminary treatment of ores or scrap
- C22B1/14—Agglomerating; Briquetting; Binding; Granulating
- C22B1/24—Binding; Briquetting ; Granulating
- C22B1/2406—Binding; Briquetting ; Granulating pelletizing
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- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21B—MANUFACTURE OF IRON OR STEEL
- C21B13/00—Making spongy iron or liquid steel, by direct processes
- C21B13/0006—Making spongy iron or liquid steel, by direct processes obtaining iron or steel in a molten state
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- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
- C22B21/00—Obtaining aluminium
- C22B21/0015—Obtaining aluminium by wet processes
- C22B21/0023—Obtaining aluminium by wet processes from waste materials
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- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
- C22B7/00—Working up raw materials other than ores, e.g. scrap, to produce non-ferrous metals and compounds thereof; Methods of a general interest or applied to the winning of more than two metals
- C22B7/006—Wet processes
- C22B7/008—Wet processes by an alkaline or ammoniacal leaching
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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
- Y02P10/00—Technologies related to metal processing
- Y02P10/20—Recycling
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Abstract
The invention discloses a kind of compound additive for promoting red mud iron alum recovery and its preparations, application method, belong to waste red mud residues application technology as the second resource field.Compound additive in the present invention includes calcium fluoride sludge, kaolin, carbide slag and landing alkali;In use process, the compound additive and red mud and reducing agent are mixed together pelletizing and carry out molten point of direct-reduction again, pearl iron and melting slag are obtained after and after slag iron separation, melting slag progress alkaline leaching is then obtained into dissolution fluid and filter residue, finally produces aluminium oxide using dissolution fluid.The recycling that compound additive promotes iron aluminium in red mud is made using industrial wastes such as calcium fluoride sludges by the present invention, to realize waste treatment and waste, and slows down pollution of the industrial waste to environment, effectively improves the resource utilization of industrial waste.
Description
Technical field
The invention discloses a kind of promotion red mud iron alum recovery compound additive and preparation method thereof and application methods, belong to
Waste red mud residues application technology as the second resource field.
Background technique
Red mud results from solid insoluble residue during the leaching of Bayer process alkali, contains a certain amount of aluminium oxide, caustic soda, ferrotitanium oxygen
Compound and a small amount of rare metal.Discharge capacity, composition and the characteristic of red mud are different due to the variation of bauxite type and production technology, always
It is divided into Bayer process red mud and 2 kinds of red mud from sintering process on body.Every production 1t aluminium oxide discharges 1~1.5t of red mud in bayer process;
Every production 1t aluminium oxide discharges 1.5~2.5t of red mud in sintering process and combination method technique.The bauxite resource in China have high alumina,
The characteristics of high silicon, low iron so that aluminium metallurgy during generate red mud be difficult to it is processed.The red mud of accumulation does not only take up a large amount of soil
Ground, and serious atmosphere and surface water pollution are generated to red mud dump and its surrounding enviroment.Therefore, red mud comprehensive utilization is carried out
It has become alumina industry to develop a circular economy, builds the inevitable requirement of " resource-conserving " and " environmentally friendly " society.
But be a kind of important secondary resource due to containing relatively large number of iron and aluminium in red mud, but current work
Realize that the recycling of iron and aluminium in red mud is also more difficult in industry.Chinese Patent Application No.: 201310236322.1, the applying date:
On June 14th, 2013, invention and created name are as follows: a kind of compound additive and application for efficiently separating iron and aluminium in red mud, the Shen
Please case disclose a kind of compound additive for iron in separating red mud and aluminium, include in the compound additive lime stone, borax,
Sodium carbonate and sodium humate, compound additive disclosed in this application is in " red mud direct-reduction-magnetic separation-alkali soluble goes out " technique
It can promote the recycling of iron and aluminium, but the compound additive needs to consume a large amount of industrial material and energy process higher cost simultaneously
And process engineering is cumbersome, is unfavorable for industrialization promotion.
In addition, calcium fluoride sludge has become a kind of major pollutants, calcirm-fluoride in current fluorine chemical production industries
With toxicity, if directly landfill is to soil nocuousness, and then can constitute a threat to plant growth and human health.And calcirm-fluoride
It is slightly soluble in water, it is mishandling that fluoride concentration in local surface water can be caused to increase, cause underground water fluorinated volume exceeded, because
This, it is also most important for the processing disposition of calcium fluoride sludge.
Summary of the invention
1. technical problems to be solved by the inivention
It is an object of the invention to for the iron and alum recovery in red mud in the prior art are at high cost, technique is cumbersome and returns
Receive low efficiency the technical issues of, provide one it is a kind of promote red mud iron alum recovery compound additive and its preparation, application method;
The use of compound additive by this kind containing calcium fluoride sludge can promote the recycling of iron and aluminium in red mud, and then realize
High efficiente callback to iron in red mud and aluminium, and the treatment of wastes with processes of wastes against one another is realized, so that industrial waste obtains effective resource utilization.
2. technical solution
In order to achieve the above objectives, technical solution provided by the invention are as follows:
A kind of promotion red mud iron alum recovery compound additive of the invention, compound additive includes calcium fluoride sludge, kaolinite
Soil, carbide slag and landing alkali.
Preferably, calcium fluoride sludge is calcium fluoride sludge caused by Organic fluoride chemical production process.
Preferably, the granularity in kaolin is greater than 75% less than the ratio of 200 mesh, and granularity is less than 200 purposes in carbide slag
Ratio is greater than 55%.
Preferably, compound additive is formed according to following mass parts: 20~50 parts of calcium fluoride sludge, 5~10 parts of kaolin,
40~70 parts of carbide slag, land 50~80 parts of alkali.
Preferably, the ingredient and composition of calcium fluoride sludge are as follows: calcirm-fluoride > 60%, calcium carbonate > 31%, organic matter >
3%, remaining is impurity.
A kind of preparation method of promotion red mud iron alum recovery compound additive of the invention,
Its preparation process are as follows:
(1) pulverizing and jevigating
Calcium fluoride sludge is crushed, carbide slag is carried out levigate;
(2) it is pre-mixed
Carbide slag and landing alkali are weighed into dry mixed, compound additive A is made;Calcium fluoride sludge and kaolin are carried out
Compound additive B is made in dry mixed;
(3) it mixes
Compound additive A and compound additive B are mixed, compound additive is made.
A kind of application method of promotion red mud iron alum recovery compound additive of the invention, the steps include: compound addition
Agent, red mud and reducing agent carry out mixed pelletizing, and pelletizing be reduced directly melting and gets pearl iron and melting slag, melting slag warp
Alkaline leaching obtains dissolution fluid, and produces aluminium oxide using dissolution fluid.
Preferably, the specific steps are that:
Step 1: pelletizing
Red mud, reducing agent and compound additive are subjected to mix, and green-ball is prepared, wherein compound additive packet
Include calcium fluoride sludge and kaolin;
Step 2: molten point of reduction
The green-ball of drying process carries out molten point of direct-reduction, and pearl iron and melting slag are obtained after slag iron separation;
Step 3: alkaline leaching
Melting slag is placed in aqueous slkali and is leached, wherein aqueous slkali is the hydrogen-oxygen that mass percentage concentration is 10~30%
Change sodium solution, obtains dissolution fluid and filter residue through being separated by solid-liquid separation;
Step 4: production aluminium oxide
Decomposed from dissolution fluid and aluminium hydroxide be precipitated, aluminium hydroxide separates with mother liquor, wash after roasted, aoxidized
Aluminium.
Preferably, the reducing agent is coal dust, and the additive amount of coal dust is the 15~20% of red mud quality.
Preferably, the additive amount of compound additive is the 8~20% of red mud quality.
3. beneficial effect
Using technical solution provided by the invention, compared with existing well-known technique, there is following remarkable result:
(1) a kind of promotion red mud iron alum recovery compound additive of the invention, compound additive includes calcium fluoride sludge, height
Ridge soil, carbide slag and landing alkali.Pelletizing is carried out using the compound additive containing calcium fluoride sludge, not only can effectively improve and make
Ball quality, and be conducive to efficiently molten point of iron in pelletizing and conducive to subsequent aluminium recycling;In addition calcirm-fluoride in compound additive
The use of the industrial wastes such as sludge realizes the treatment of wastes with processes of wastes against one another, so that industrial waste has obtained effective resource utilization.
(2) preparation method of a kind of promotion red mud iron alum recovery compound additive of the invention, first by calcirm-fluoride and calcium carbide
Slag carries out pulverizing and jevigating, then carbide slag and landing alkali is weighed dry mixed, compound additive A is made;By calcium fluoride sludge and height
Ridge soil, which is dried, is mixed to prepare compound additive B;Finally compound additive A and compound additive B are mixed, are made multiple
Close additive.
(3) application method of a kind of promotion red mud iron alum recovery compound additive of the invention, by by red mud, reducing agent
Carry out molten point of direct-reduction again with compound additive mixed pelletizing, wherein compound additive includes calcium fluoride sludge, and after through slag
Pearl iron and melting slag are obtained after iron separation, then melting slag are leached using lye to obtain dissolution fluid and filter residue, and utilize upper
The dissolution fluid production aluminium oxide stated;The disposable recycling of iron may be implemented by molten point of processing of direct-reduction for red mud, simplify iron
Extraction process.
Detailed description of the invention
Fig. 1 is a kind of method flow diagram of the application method of promotion red mud iron alum recovery compound additive of the invention;
Fig. 2 is the method flow diagram of the preparation method of compound additive of the invention.
Specific embodiment
Hereafter detailed description of the present invention and example embodiment are more fully understood in combination with attached drawing.
Embodiment 1
A kind of promotion red mud iron alum recovery compound additive of the present embodiment, including calcium fluoride sludge, kaolin, carbide slag
With landing alkali.Said components form in compound additive according to following mass parts: 20~50 parts of calcium fluoride sludge, kaolin 5
~10 parts, 40~70 parts of carbide slag, land 50~80 parts of alkali.
As shown in connection with fig. 1, a kind of method using iron aluminium in waste resource recycling red mud of the present embodiment, the steps include:
Red mud, reducing agent and compound additive mixed pelletizing are carried out to molten point of direct-reduction again, wherein compound additive includes calcirm-fluoride
Sludge, and after obtain pearl iron and melting slag after slag iron separation, then using lye to melting slag leached to obtain dissolution fluid and
Filter residue, and aluminium oxide is produced using above-mentioned dissolution fluid.Specific steps are as follows:
Step 1: pelletizing
Red mud is subjected to Pretreatment by high pressure roller grinding, Pretreatment by high pressure roller grinding technological parameter in the present embodiment are as follows: material moisture 8
~15%, 5~20N/mm of rolling pressure, so that red mud granularity is less than 0.074mm and accounts for 70% or more;Then add compound additive
And reducing agent, the additive amount of compound additive be by the 8~20% of red mud quality, in addition in the present embodiment reducing agent additive amount
It is the 15~20% of red mud quality, wherein reducing agent is coal dust in the present embodiment, the additional amount of compound additive in the present embodiment
It is the 15% of red mud quality, the additional amount of coal reduction agent is the 20% of red mud quality;After compound additive and reducing agent addition
Carry out pelletizing.It is worth noting that the component of compound additive includes calcium fluoride sludge, and in the present embodiment, compound additive
Further include that kaolin, carbide slag and landing alkali, said components form in compound additive according to following mass parts: calcirm-fluoride is dirty
20~50 parts of mud, 5~10 parts of kaolin, 40~70 parts of carbide slag, land 50~80 parts of alkali, in the present embodiment, compound addition
The specific mass parts composition of each component in agent are as follows: 20 parts of calcium fluoride sludge, 8 parts of kaolin, 50 parts of carbide slag, land 60 parts of alkali.
Wherein, the granularity in kaolin is greater than 75% less than the ratio of 200 mesh, and granularity is greater than less than the ratio of 200 mesh in carbide slag
55%
It is worth noting that calcium fluoride sludge used in the present embodiment is caused by Organic fluoride chemical production process
Calcium fluoride sludge, the mass percentage of calcium fluoride sludge each component in the present embodiment are as follows: calcirm-fluoride: 60~65%, calcium carbonate:
20~25%, organic matter: 3~5%, remaining is impurity.Compound additive is using fluorine caused by Organic fluoride chemical production process
Change calcium sludge, so that improving compound additive has the function of positive, not only calcirm-fluoride dirt to the extraction of iron in red mud and aluminium
The collective effect of mud and compound additive so that compound additive shows preferable caking property in balling process, and makes
The green-ball that must be prepared has preferable intensity and thermal stability.
As shown in Fig. 2, a kind of preparation method for promoting red mud iron alum recovery compound additive:
(1) pulverizing and jevigating
Calcium fluoride sludge is crushed, carbide slag is carried out levigate;
(2) it is pre-mixed
Carbide slag and landing alkali are first weighed into dry mixed, compound additive A is made;Again by calcium fluoride sludge and kaolin
It is dried and is mixed to prepare compound additive B;
(3) it mixes
Compound additive A and compound additive B are mixed, compound additive is made.
Step 2: molten point of direct-reduction
The green-ball that first step pelletizing obtains is dried in grate, drying temperature is 900~1100 DEG C, this implementation
Example drying temperature is 1000 DEG C, drying time 20min;Green-ball, which melts after being dried in rotary hearth furnace direct-reduction, to be divided,
The temperature of molten point of middle reduction is 1350~1450 DEG C, and the recovery time is 35~50min, in the present embodiment, reduction temperature 1350
DEG C, recovery time 45min;To obtain pearl iron and melting slag.
At this time it should be noted that during molten point of pelletizing direct-reduction, by the way that compound additive is added, compound
Calcium fluoride sludge cooperation can be effectively reduced molten point of direct-reduction with kaolin, carbide slag and landing alkali collective effect in additive
Temperature, and dropped by compound additive and increase the melting slag in reaction process and the surface tension between iron shot;Compound additive
The progress that pelletizing is reduced directly molten point process can be not only promoted, but also metallic iron crystal grain can be promoted to grow up, is accelerated
Slagging course in reaction process, and then improve the recovery efficiency of iron and aluminium oxide.
Step 3: alkaline leaching
The resulting melting slag of second step is placed in the sodium hydroxide aqueous slkali that mass percentage concentration is 10~30% and is carried out
Alkaline leaching obtains dissolution fluid and filter residue after being separated by solid-liquid separation (as filtered).
Naoh concentration is 10% in sodium hydroxide aqueous slkali used in the present embodiment, to reaction after alkaline leaching
Solid-liquid afterwards is filtered, and respectively obtains dissolution fluid and filter residue, and obtained filtrate is used to produce aluminium oxide, and filter residue is taken off
Alkali, filtration treatment obtain dealkalize filter residue and dilute alkaline soln;Dilute alkaline soln is returned into second step, lye leaching is carried out to melting slag again
Out.
It should be noted that promoting in compound additive at branch is contained in landing alkali during alkaline leaching
There is sodium carbonate in dissolution fluid and aluminium oxide combines and generates sodium aluminate, to realize the dissolution for promoting aluminium oxide.In addition kaolin
Other than having the function of strengthening pelletizing in balling process, kaolin is under relatively lower temp, in compound additive early period
Under the collective effect of other products generated, with silicon dioxde reaction in dissolution fluid to play desiliconization easily in aqueous slkali
Effect, and then have the effect of improving aluminium recovery in red mud.
The recycling of detection the present embodiment obtains Iron grade, iron recovery and the aluminium dissolution rate of direct-reduction iron shot;Detection knot
Fruit is as follows: the Iron grade of iron shot is 89.88%, iron recovery 95.76%, and melting slag aluminium dissolution rate is 73.90%.
Comparative example 1
This comparative example and embodiment 1 are essentially identical, the difference is that: do not use the molten point-score of direct-reduction to red mud pelletizing
It is restored, after red mud pelletizing prepares, rotary kiln for directly reducing will be carried out after green-ball drying and preheating.After reducting pellet is cooling
By broken, ore grinding and magnetic separation, reduced iron is obtained by magnetic separation, magnetic tailing is then subjected to alkalinity dissolution recycling aluminium.It returns
Receipts obtain the direct-reduction iron powder of Iron grade 82.56%, iron recovery 90.37%, and magnetic tailing aluminium dissolution rate is 69.37%.
Comparative example 2
This comparative example and embodiment 1 are essentially identical, the difference is that: any compound additive is not added, using direct
It restores molten point-score to be restored, 1500 DEG C of reduction temperature, recovery time 60min, melting slag is then subjected to lye dissolution.Recycling
The direct-reduction iron shot of Iron grade 75.32%, iron recovery 80.63% are obtained, melting slag aluminium dissolution rate is 45.37%.
Comparative example 1, comparative example 2 and embodiment 1 are compared and analyzed:
Embodiment 1 and the comparison of comparative example 1 are found, are compared to rotary kiln for directly reducing, the technical solution of embodiment 1 has
Conducive to the amount and ratio for improving recycling iron, while the amount of alum recovery is also improved.
Embodiment 1 and the comparison of comparative example 2 are found, is compared to and is not added with compound additive, after adding compound additive
Be conducive to improve the amount and ratio of recycling iron, while the amount of alum recovery is also improved.This is because by the way that compound add is added
Add agent, calcium fluoride sludge cooperation can be effectively reduced in compound additive with kaolin, carbide slag and landing alkali collective effect
Direct-reduction is molten to divide temperature, and is dropped by compound additive and increase the melting slag in reaction process and the surface between iron shot
Power;Compound additive can not only promote the progress that pelletizing is reduced directly molten point process, and then improve time of iron and aluminium oxide
It produces effects rate.
Embodiment 2
The present embodiment substantially with embodiment 1, the difference is that: the compound additive of the present embodiment further includes humic acid
Sodium, the mass parts that sodium humate is added are 5~10 parts, and sodium humate is 8 parts in the present embodiment.It is added to the red of compound additive
Mud carries out preparing green-ball, and green-ball is dried, and then carries out molten point of direct-reduction, and reduction is molten to get iron shot and melting slag;
Melting slag carries out alkaline leaching again, then obtains dissolution fluid and filter residue through being separated by solid-liquid separation, and aluminium hydroxide is precipitated from dissolution fluid.
The recycling of detection the present embodiment obtains Iron grade, iron recovery and the aluminium dissolution rate of direct-reduction iron shot;Detection knot
Fruit is as follows: the Iron grade of iron shot is 90.24%, iron recovery 94.63%, and melting slag aluminium dissolution rate is 73.36%.Pass through supplying
A certain amount of sodium humate can be further improved the recovery efficiency of straight iron and aluminium oxide.
Embodiment 3
The present embodiment substantially with embodiment 1, the difference is that: the additional amount of reducing agent be red mud quality 20%;It is multiple
Close the component of additive are as follows: 50 parts of calcium fluoride sludge, 5 parts of kaolin, 65 parts of carbide slag, land 80 parts of alkali;Wherein in carbide slag
Calcium oxide content >=68%, calcium fluoride sludge Calcium Fluoride Content are 61%, and landing carbonate content in alkali is 62%;The present embodiment
1000 DEG C of drying temperature, drying time 20min;Rotary hearth furnace direct-reduction is arrived after drying and is melted divides, reduction temperature fuel degree 1350~
1450 DEG C, 35~50min of recovery time, 1400 DEG C of the reduction temperature of the present embodiment, recovery time 43min;The hydrogen of the present embodiment
Sodium oxide molybdena alkaline concentration is 15%.
The recycling of detection the present embodiment obtains Iron grade, iron recovery and the aluminium dissolution rate of direct-reduction iron shot;Detection knot
Fruit is as follows: the Iron grade of iron shot is 89.72%, iron recovery 93.72%, and melting slag aluminium dissolution rate is 75.21%.
Embodiment 4
The present embodiment and embodiment 1 are essentially identical, the difference is that: red mud used in the present embodiment at grouping
At as shown in table 1.
1 embodiment of table, 2 red mud is at being grouped as table
SiO2 | Al2O3 | Fe2O3 | CaO | MgO | K2O | Na2O | Remaining |
11.38% | 32.24% | 6.98% | 20.21% | 1.12% | 0.47% | 3.75% | 23.85% |
The specific additional amount of compound additive is added as follows:
(1)Al2O3And Fe2O3The sum of percentage composition in red mud is a, and percentage composition b of the CaO in red mud works as a
When > 1.5b, the additional amount of compound additive is M, M=k1× a, k1Value 0.45~0.55.
(2)Al2O3And Fe2O3The sum of percentage composition in red mud is a, percentage composition b, SiO of the CaO in red mud2
Percentage composition c in red mud, as a < 1.5b, the additional amount of compound additive is M, M=k2×a+k3× c, k2Value
0.35~0.45, k3Value is 0.010~0.015.
In the present embodiment, Al2O3And Fe2O3The sum of percentage composition in red mud a=32.24%+6.98%=
39.22% > 1.5b=30.315%, so the additional amount M of compound additive is added according to mode (1), k in the present embodiment1It takes
Value 0.5, M=19.61%, so the additional amount compound additive of compound additive takes 23.5% in the present embodiment.
Then, the recycling for detecting the present embodiment obtains Iron grade, iron recovery and the aluminium dissolution rate of direct-reduction iron shot;Inspection
It is as follows to survey result: the Iron grade of iron shot is 90.51%, iron recovery 96.23%, and melting slag aluminium dissolution rate is 75.53%.Pass through
The additional amount of compound additive is adjusted, so as to be adjusted according to the characteristic of red mud, so that compound additive adds
Enter amount to be suitable in the recycling of the iron and aluminium oxide of different red muds, and then recovery efficiency can be improved.
Embodiment 5
The present embodiment and embodiment 1 are essentially identical, the difference is that: red mud used in the present embodiment at grouping
At as shown in table 2.
2 embodiment of table, 3 red mud is at being grouped as table
SiO2 | Al2O3 | Fe2O3 | CaO | MgO | K2O | Na2O | Remaining |
21.01% | 10.50% | 11.56% | 40.62% | 0.98% | 0.32% | 1.62% | 13.39% |
The specific additional amount of compound additive is added as follows:
(1)Al2O3And Fe2O3The sum of percentage composition in red mud is a, and percentage composition b of the CaO in red mud works as a
When > 1.5b, the additional amount of compound additive is M, M=k1× a, k1Value 0.45~0.55.
(2)Al2O3And Fe2O3The sum of percentage composition in red mud is a, percentage composition b, SiO of the CaO in red mud2
Percentage composition c in red mud, as a < 1.5b, the additional amount of compound additive is M, M=k2×a+k3× c, k2Value
0.35~0.45, k3Value is 0.010~0.015.
In the present embodiment, Al2O3And Fe2O3The sum of percentage composition in red mud a=10.50%+11.56%=
22.06% < 1.5b=60.93%, so the additional amount M of compound additive is added according to mode (2), k in the present embodiment2It takes
Value 0.4, k3Value 0.013, M=9.097%.
Then, the recycling for detecting the present embodiment obtains Iron grade, iron recovery and the aluminium dissolution rate of direct-reduction iron shot;Inspection
It is as follows to survey result: the Iron grade of iron shot is 90.50%, iron recovery 96.18%, and melting slag aluminium dissolution rate is 75.58%.Pass through
The additional amount of compound additive is adjusted, so as to be adjusted according to the characteristic of red mud, so that compound additive adds
Enter amount to be suitable in the recycling of the iron and aluminium oxide of different red muds, and then recovery efficiency can be improved.
Embodiment 6
The present embodiment and embodiment 1 are essentially identical, and difference is dry: further including steel in the compound additive of the present embodiment
Slag, steel slag are conducive to improve the yield of iron and aluminium in red mud.Steel slag additional amount be compound additive gross mass 1.3%~
3.7%, the present embodiment steel slag additional amount is 2.5%.
The recycling of detection the present embodiment obtains Iron grade, iron recovery and the aluminium dissolution rate of direct-reduction iron shot;Detection knot
Fruit is as follows: the Iron grade of iron shot is 89.36%, iron recovery 97.78%, and melting slag aluminium dissolution rate is 76.86%.
Embodiment 7
The present embodiment and embodiment 1 are essentially identical, the difference is that: it further include turning in the compound additive of the present embodiment
Furnace wind quenching slag, converter wind quenching slag can strengthen the preparation of pelletizing.Converter wind quenching slag additional amount is compound additive gross mass
2.7%~4.5%, the present embodiment steel slag additional amount is 3.0%.
The recycling of detection the present embodiment obtains Iron grade, iron recovery and the aluminium dissolution rate of direct-reduction iron shot;Detection knot
Fruit is as follows: the Iron grade of iron shot is 90.32%, iron recovery 96.53%, and melting slag aluminium dissolution rate is 77.53%.
The present invention is described in detail above in conjunction with specific exemplary embodiment.It is understood, however, that can not take off
It is carry out various modifications in the case where from the scope of the present invention being defined by the following claims and modification.Detailed description and drawings
Should be to be considered only as it is illustrative and not restrictive, if there is any such modifications and variations, then they all will
It falls into the scope of the present invention described herein.In addition, Development Status and meaning that background technique is intended in order to illustrate this technology,
It is not intended to limit the present invention or the application and application field of the invention.
Claims (9)
1. a kind of promotion red mud iron alum recovery compound additive, it is characterised in that: compound additive includes calcium fluoride sludge, kaolinite
Soil, carbide slag and landing alkali.
2. a kind of promotion red mud iron alum recovery compound additive according to claim 1, it is characterised in that: calcium fluoride sludge
For calcium fluoride sludge caused by Organic fluoride chemical production process.
3. a kind of promotion red mud iron alum recovery compound additive according to claim 1, it is characterised in that: in kaolin
Granularity is greater than 75% less than the ratio of 200 mesh, and granularity is greater than 55% less than the ratio of 200 mesh in carbide slag.
4. a kind of promotion red mud iron alum recovery compound additive according to claim 1, it is characterised in that: compound additive
It is formed according to following mass parts: 20~50 parts of calcium fluoride sludge, 5~10 parts of kaolin, 40~70 parts of carbide slag, landing alkali 50~
80 parts.
5. a kind of promotion red mud iron alum recovery compound additive according to claim 3, it is characterised in that: calcium fluoride sludge
Ingredient and composition are as follows: calcirm-fluoride: 60~65%, calcium carbonate: 20~25%, organic matter: 3~5%, remaining is impurity.
6. a kind of preparation method for promoting red mud iron alum recovery compound additive, it is characterised in that:
Its preparation process are as follows:
(1) pulverizing and jevigating
Calcium fluoride sludge is crushed, carbide slag is carried out levigate;
(2) it is pre-mixed
Carbide slag and landing alkali are weighed into dry mixed, compound additive A is made;Calcium fluoride sludge and kaolin are dried
It is mixed to prepare compound additive B;
(3) it mixes
Compound additive A and compound additive B are mixed, compound additive is made.
7. a kind of application method for promoting red mud iron alum recovery compound additive, which is characterized in that the steps include: compound addition
Agent, red mud and reducing agent carry out mixed pelletizing, and pelletizing be reduced directly melting and gets pearl iron and melting slag, melting slag warp
Alkaline leaching obtains dissolution fluid, and produces aluminium oxide using dissolution fluid.
8. a kind of application method for promoting red mud iron alum recovery compound additive according to claim 7, it is characterised in that:
The reducing agent is coal dust, and the additive amount of coal dust is the 15~20% of red mud quality.
9. a kind of application method for promoting red mud iron alum recovery compound additive according to claim 7, it is characterised in that:
The additive amount of compound additive is the 8~20% of red mud quality.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110127725A (en) * | 2019-06-18 | 2019-08-16 | 河南镁联铝基材料有限公司 | The dealkalization method of Bayer process red mud |
CN113247926A (en) * | 2021-05-21 | 2021-08-13 | 云南文山铝业有限公司 | Method for dissolving out calcium carbide slag instead of lime |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103290207A (en) * | 2013-06-14 | 2013-09-11 | 中南大学 | Comprehensive recycling method of iron and aluminum from red mud |
CN103397128A (en) * | 2013-08-02 | 2013-11-20 | 北京科技大学 | Method used for extracting iron from red mud by drastic reduction and method used for preparing gel material from secondary tailings |
CN103805726A (en) * | 2012-11-06 | 2014-05-21 | 莱芜钢铁集团有限公司 | Method using rotary hearth furnace iron bead technology to comprehensively use ferric red mud |
DE102016113089B3 (en) * | 2016-07-15 | 2017-11-16 | Technische Universität Bergakademie Freiberg | Process for the recycling of silicon waste |
-
2018
- 2018-10-31 CN CN201811292660.6A patent/CN109402386B/en active Active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103805726A (en) * | 2012-11-06 | 2014-05-21 | 莱芜钢铁集团有限公司 | Method using rotary hearth furnace iron bead technology to comprehensively use ferric red mud |
CN103290207A (en) * | 2013-06-14 | 2013-09-11 | 中南大学 | Comprehensive recycling method of iron and aluminum from red mud |
CN103397128A (en) * | 2013-08-02 | 2013-11-20 | 北京科技大学 | Method used for extracting iron from red mud by drastic reduction and method used for preparing gel material from secondary tailings |
DE102016113089B3 (en) * | 2016-07-15 | 2017-11-16 | Technische Universität Bergakademie Freiberg | Process for the recycling of silicon waste |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110127725A (en) * | 2019-06-18 | 2019-08-16 | 河南镁联铝基材料有限公司 | The dealkalization method of Bayer process red mud |
CN110127725B (en) * | 2019-06-18 | 2021-07-30 | 河南镁联铝基材料有限公司 | Dealkalization method of Bayer process red mud |
CN113247926A (en) * | 2021-05-21 | 2021-08-13 | 云南文山铝业有限公司 | Method for dissolving out calcium carbide slag instead of lime |
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