WO2018228155A1 - Preparation method for high-vanadium high-chromium type vanadium titanium magnetite pellets - Google Patents

Abstract

A preparation method for high-vanadium high-chromium type vanadium titanium magnetite pellets, comprising: performing wet-grinding on the imported high-vanadium high-chromium type vanadium titanium magnetite; compounding according to the pellet raw material ratio; drying and mixing the raw materials; adding bottom water for material mixing; braising the materials; pelletizing; screening fresh pellets to obtain 8-16 mm fresh pellets; and then drying and preoxidizing, shaft furnace roasting and cooling to prepare the high-vanadium high-chromium type vanadium titanium magnetite pellets.

Description

Preparation method of high vanadium and high chromium type vanadium titanium magnetite pellet Technical field

The invention belongs to the field of blast furnace smelting technology in the comprehensive utilization method of high vanadium and high chromium type vanadium-titanium magnetite, and particularly relates to a high vanadium and high chromium type vanadium-titanium magnetite pellet.

Background technique

With the increasing supply and demand gap of domestic iron ore, iron and steel enterprises urgently need to expand the source of iron ore resources and develop high value-added vanadium and chromium products. Importing foreign iron ore resources has become a trend, importing high vanadium and high chromium vanadium and titanium magnets. Iron ore is a multi-metal co-contributing ore rich in iron, vanadium, titanium, chromium and other valuable components. The application value is extremely high, but its mineral composition is complex and comprehensive utilization is difficult. In the prior art, vertical The thermal operation system of the furnace roasting should not be determined, which may lead to over-melting of imported high-vanadium and high-chromium vanadium-titanium magnetite pellets, agglomeration or nodulation, affecting the finished high-vanadium and high-chromium vanadium-titanium magnetite pellets. Yield and quality. This will affect the improvement of smelting smelting indicators and the improvement of ironmaking technology.

Summary of the invention

The invention is to solve the existing problems of preparing imported high-vanadium and high-chromium type vanadium-titanium magnetite pellets, and the pellets are prone to over-melting, thereby agglomerating or noging, affecting the yield and quality of the finished ball, and A method for preparing a high vanadium high chromium type vanadium titanium magnetite pellet is provided. The method effectively improves the quality of the green ball and ensures the yield and quality of the pellet.

The preparation method of the high vanadium high chromium type vanadium titanium magnetite pellet of the invention is achieved by the following steps:

Step 1, grinding

The high vanadium and high chromium type vanadium-titanium magnetite is ground and the grinding time is 5 to 15 minutes, and the high vanadium and high chromium type vanadium-titanium magnetite powder after grinding is obtained, and the fineness is -200 mesh ≥ 90 %;

Wherein, the grinding process adopts a grinding machine, wherein the process parameters of the grinding machine are: the working rotation number of the cylinder is 14.3-21.95r/min, and the ratio of the ball of the grinding machine is: (3.4~11.3): (24-83);

Step 2, ingredients

According to the raw material composition of the high vanadium and high chromium type vanadium titanium magnetite pellets and the weight ratio thereof, the raw materials are weighed and uniformly mixed to obtain a mixed material;

Among them, the high vanadium and high chromium type vanadium-titanium magnetite pellets are prepared by grinding high-vanadium and high-chromium vanadium-titanium magnetite powder, iron material and bentonite, wherein the weight ratio of each component is:

High vanadium and high chromium vanadium-titanium magnetite powder after grinding: 51-56 parts, iron material: 44-49 parts, bentonite: 0.8-1.1 parts;

The milled high vanadium high chromium type vanadium titanium magnetite powder is a high vanadium high chromium type with a fineness of -200 mesh ≥90% obtained by grinding high vanadium and high chromium type vanadium titanium magnetite. vanadium and titanium magnetite powder, comprising the TFe is 61 ~ 63wt%, and the mass percentage of chemical components comprising of:. FeO: 26 ~ 28% , Fe 3 O 4: 54.06 ~ 58.97%, V 2 O 5: 0.9 to 1.1%, TiO ₂ : 4.5 to 5.5%, Cr ₂ O ₃ : 0.45 to 0.85%, CaO: 0.16 to 0.26%, SiO ₂ : 2 to 3%, MgO: 0.5 to 1.0%, Al ₂ O ₃ : 2.5 to 4.0%, the balance is an inevitable impurity;

The iron material contains components and parts by weight thereof: ordinary iron ore powder: 70 to 100 parts; ordinary ultrafine iron powder: 0 to 30 parts;

Wherein, the ordinary iron ore fine powder has a particle size of ≤0.5 mm, and the maximum particle diameter is ≤3 mm;

Ordinary ultrafine iron powder has a fineness of -325 mesh ≥ 85% or -200 mesh ≥ 95%;

The bentonite has a particle size of ≤200 mesh, and the components thereof and the mass percentage thereof are: SiO ₂ : 66 to 69%, Al ₂ O ₃ : 13 to 16%, MgO: 4 to 5%, and CaO: 2 to 3 %, Na ₂ O ≤ 1.7%, K ₂ O ≤ 1.2%, and the balance is an unavoidable impurity.

Step 3, drying

Drying the mixture to a moisture content of the mixture of 6 to 8%, to obtain a mixture after drying;

Step 4, add bottom water mix, dip

The dried mixture material is added to water, and uniformly mixed, and then dip for 30 to 50 minutes to obtain a mashed material; wherein the amount of water added is 1.8 to 2.2% of the mass of the mixture after drying;

Step 5, pelletizing and sieving

The enamel material is placed in a disc pelletizer, water is added, so that the water content of the high vanadium high chromium type vanadium titanium magnetite ball is controlled to be 9-11%, the ball is formed, and the particle size is obtained by sieving. 8 to 16 mm high vanadium and high chromium vanadium-titanium magnetite ore ball;

Step 6, drying pre-oxidation

The high vanadium high chromium vanadium-titanium magnetite ore ball with a particle size of 8-16 mm is evenly distributed into the drying bed at the top of the shaft furnace through a cloth machine, and preheated and oxidized by drying and dehydrating in the drying bed. The pre-oxidized high vanadium and high chromium vanadium-titanium magnetite pellets are obtained, wherein the temperature of the drying bed is controlled to be 650-750 ° C, the temperature of the hood is controlled to 160-210 ° C, and the thickness of the layer is controlled to 100-140 mm. Drying time is 5-9 min;

Step 7, shaft furnace roasting

The pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is dried in a shaft furnace to obtain a high-vanadium high-chromium-type vanadium-titanium magnetite pellet after calcination; the roasting process is: a combustion chamber The temperature is 1150～1250°C, the combustion chamber pressure is 7～11kPa, the gas pressure is 18～20kPa, the combustion air pressure is 16～18kPa, and the baking time is 10～18min;

Step 8, cooling

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets are discharged from the bottom of the shaft furnace after being cooled by the furnace to obtain high vanadium and high chromium vanadium-titanium magnetite pellets.

The prepared high vanadium and high chromium type vanadium-titanium magnetite pellets have a TFe of 61.88 to 64.22 wt.%, and the chemical components and mass percentage thereof are: Fe ₂ O ₃ : 87.51 to 91.41%, FeO: 0.3 ～0.8%, V ₂ O ₅ : 0.45 to 0.62%, TiO ₂ : 2.29 to 3.20%, Cr ₂ O ₃ : 0.22 to 0.48%, CaO: 0.11 to 0.63%, SiO ₂ : 3.18 to 4.77%, MgO: 0.32 ～0.89%, Al ₂ O ₃ : 1.62 to 4.0%, and the balance is an unavoidable impurity.

The prepared high vanadium and high chromium type vanadium-titanium magnetite pellets have a green sphere size of 8 to 16 mm, a green ball falling strength of ≥4 times/piece, a compressive strength of ≥10 N/piece, and a high pre-oxidized high vanadium. The compressive strength of chromium-type vanadium-titanium magnetite pellets is ≥300N/piece, and the compressive strength of high-vanadium and high-chromium vanadium-titanium magnetite pellets after calcination is ≥2200N/piece, and the reduction expansion ratio of pellets ≤16.4%.

In the step 3, the specific operation method of the drying is: placing the mixture in a dry box and drying at 90 to 110 ° C until the moisture content of the mixture is 6 to 8%.

In the step 4, the method of adding water adopts atomization and water addition.

In the step 4, the dip material refers to covering the water-mixed mixture with a plastic bag or plastic paper for the purpose of uniformly mixing the water.

In the step 5, the screening is specifically a roll screen, which is specifically for screening the high vanadium high chromium type vanadium titanium magnetite ball obtained by the disc ball making mechanism through the gap between the sieve rolls. The high vanadium high chromium type vanadium titanium magnetite ball with a particle size of 8-16 mm enters the next step, and the high vanadium high chromium type vanadium titanium magnetite ball with a particle size of less than 8 mm is returned to the disc pelletizer of step 5. Continue to build the ball, the high vanadium high chromium vanadium-titanium magnetite ball with a particle size larger than 16mm is broken, and return to the disc pelletizer of step 5 to continue the ball.

The high vanadium high chromium type vanadium titanium magnetite pellets have a production capacity of 1,500 tons/day.

The high vanadium and high chromium type vanadium-titanium magnetite pellet is used for smelting the imported high vanadium and high chromium vanadium-titanium magnetite.

The high vanadium and high chromium type vanadium titanium magnetite pellet of the present invention has the beneficial effects compared with the prior art:

1. A high vanadium and high chromium type vanadium-titanium magnetite pellet of the invention is appropriately adjusted by grinding and importing high vanadium and high chromium type vanadium titanium magnetite, mixing common iron ore powder and ordinary ultrafine iron powder. The ratio of bentonite is a good solution to the disadvantages of excessive consumption of bentonite when the high-vanadium and high-chromium vanadium-titanium magnetite is too coarse, the sphericity is poor, and the high vanadium and high-chromium vanadium-titanium magnetite pellets are prepared. Run grinding makes the average size of the mixture increase by more than 8%, the ratio of bentonite is reduced by more than 1%, and the grade of pellets is improved to a large extent; the quality of the green ball is effectively improved, and the yield and quality of the pellets are guaranteed;

2. By setting a reasonable calcination temperature, the vanadium-containing V ₂ O ₅ : 0.45-0.62%, TiO ₂ : 2.29-3.20%, Cr ₂ O ₃ : 0.22-0.48% can be achieved when the pellet component is stable. To meet the requirements of blast furnace smelting imported high vanadium and high chromium vanadium-titanium magnetite.

3. In the process of preparing high vanadium and high chromium type vanadium titanium magnetite pellets in the invention, the advantages of adding bottom water and dip material are beneficial to the preparation and uniformity of the pellets, thereby improving the yield and quality of the pellets, and Subsequent shaft furnace roasting brings great convenience, and further facilitates the preparation of pellets with superior performance.

4. In the present invention, by the change of grinding and raw material ratio, the mineral powder particles in the pellet are more closely bonded, and the microstructure is more uniform and compact, thereby making the performance of the high vanadium and high chromium vanadium titanomagnetite pellet. Greatly improved, including higher green ball drop strength, higher ball compressive strength, higher oxidized pellet compressive strength, and reduced expansion, reducibility, and reflow of oxidized pellets Metallurgical properties such as properties are superior.

detailed description

The present invention will be further described in detail below with reference to the embodiments.

The high vanadium high chromium vanadium titanate magnetite used in the following examples is from the Ural region of Russia.

High-chromium high vanadium vanadium-titanium magnetite embodiment used in the following embodiments, which contains TFe is 61 ~ 63wt%, and the mass percentage of chemical components comprising of:. FeO: 26 ~ 28% , Fe 3 O 4: 54.06 ～58.97%, V ₂ O ₅ : 0.9 to 1.1%, TiO ₂ : 4.5 to 5.5%, Cr ₂ O ₃ : 0.45 to 0.85%, CaO: 0.16 to 0.26%, SiO ₂ : 2 to 3%, MgO: 0.5 ～1.0%, Al ₂ O ₃ : 2.5 to 4.0%, the balance being unavoidable impurities;

Common iron ores used in the following embodiment Examples, which contains TFe is 63 ~ 65wt%, and the mass percentage of chemical components comprising of:. FeO: 22 ~ 28% , Fe 3 O 4: 56.82 ~ 66.03%, CaO: 0.06 to 1.0%, SiO ₂ : 5 to 6%, MgO: 0.14 to 0.74%, and Al ₂ O ₃ : 1 to 4%, and the balance is an unavoidable impurity.

The ordinary ultrafine iron powder used in the following examples contains a TFe of 65 to 69 wt.%, and contains chemical components and mass percentages thereof: FeO: 23 to 27%, Fe ₃ O ₄ : 60.66 to 70.48%, CaO. : 0.1 to 0.2%, SiO ₂ : 4 to 8%, MgO: 0.15 to 0.35%, and Al ₂ O ₃ : 0.05 to 0.35%, and the balance is an unavoidable impurity.

The bentonite used in the following examples is a commercially available product, and the components thereof and the mass percentage thereof are: SiO ₂ : 66 to 69%, Al ₂ O ₃ : 13 to 16%, MgO: 4 to 5%, CaO: 2 to 3%, Na ₂ O ≤ 1.7%, K ₂ O ≤ 1.2%, and the balance is an unavoidable impurity.

The technical solution of the present invention is not limited to the specific embodiments listed below, and includes any combination between the specific embodiments.

Example 1

The preparation method of high vanadium and high chromium type vanadium-titanium magnetite pellets is achieved by the following steps: grinding, compounding, drying and mixing, adding bottom water mixing, dip material, pelletizing, green ball screening, baking Intervene oxidation, shaft furnace roasting, cooling, the specific steps are:

Step 1, grinding

The high vanadium and high chromium type vanadium-titanium magnetite is ground and the grinding time is 15 min, and the high-vanadium high-chromium vanadium-titanium magnetite powder after grinding is obtained, and the fineness is -200 mesh ≥90%;

The grinding machine adopts a grinding machine, wherein the process parameters of the grinding machine are: the size of the grinding machine is MR3254, the outer dimension is 13.4m×7.25m×5.7m, the inner diameter of the cylinder is 3.2m, and the cylinder works. The length is 5.4m, the effective capacity of the cylinder is 39.5m3, the working revolution of the cylinder is 16.5r/min, and the maximum loading of the grinding machine is 6t of material and 44t of steel ball;

Step 2, ingredients

According to the raw material composition of the high vanadium and high chromium type vanadium titanium magnetite pellets and the weight ratio thereof, the raw materials are weighed and uniformly mixed to obtain a mixed material;

The high vanadium and high chromium type vanadium-titanium magnetite pellets are prepared by grinding high-vanadium and high-chromium vanadium-titanium magnetite powder, iron material and bentonite, wherein the weight ratio of each component is:

High vanadium and high chromium vanadium-titanium magnetite powder after grinding: 51 parts, iron material: 49 parts, bentonite: 0.8 parts;

The milled high vanadium high chromium type vanadium titanium magnetite powder is a high vanadium high chromium type with a fineness of -200 mesh ≥90% obtained by grinding high vanadium and high chromium type vanadium titanium magnetite. Vanadium-titanium magnetite powder;

The iron material contains components and parts by weight thereof: ordinary iron ore fines: 70 parts; ordinary ultrafine iron powder: 30 parts;

Wherein, the ordinary iron ore fine powder has a particle size of ≤0.5 mm, and the maximum particle diameter is ≤3 mm;

Ordinary ultrafine iron powder has a fineness of -325 mesh ≥ 85% or -200 mesh ≥ 95%;

The bentonite has a particle size of ≤200 mesh;

Step 3, drying

The mixture is placed in a dry box and dried at 90 ° C until the moisture content of the mixture is 6%, and the dried mixture is obtained;

Step 4, add bottom water mix, dip

The dried mixture material is added to water by atomization and water addition, and uniformly mixed, and then the mixture material added with water is covered with a plastic bag, and the mixture is poured for 30 minutes to obtain a good material; wherein the amount of water added is dried. 2% of the mass of the subsequent mixture;

Step 5, pelletizing and sieving

The simmered material is placed in a disc pelletizer, and water is added to control the water content of the high vanadium high chromium type vanadium titanium magnetite ball to be controlled at 11%, and the granules are sieved to obtain a particle size of 8 ～. 10mm high vanadium high chromium vanadium titanium magnetite ball;

The sieving is specifically a roll screen, which is specifically for sieving the high vanadium high chromium type vanadium titanium magnetite ball obtained by the disc blasting mechanism through the gap between the sieve rolls, and the particle size is 8-10 mm. The high vanadium and high chromium type vanadium-titanium magnetite ore ball enters the next step, and the high vanadium high chromium type vanadium titanium magnetite ore ball with a particle size of less than 8 mm is returned to the disc pelletizer of step 5 to continue the ball formation, and the particle size is greater than 10 mm. The high vanadium high chromium type vanadium titanium magnetite ore ball is broken into ore powder and returned to the disc pelletizer of step 5 for pelletizing.

The prepared high vanadium and high chromium type vanadium-titanium magnetite pellets have a green ball size of 8 to 10 mm, a green ball drop strength of 6 times/piece, and a compressive strength of 15 N/piece.

Step 6, drying pre-oxidation

The high vanadium and high chromium type vanadium-titanium magnetite ore ball with a particle size of 8-10 mm is evenly distributed into the drying bed at the top of the shaft furnace through a cloth machine, and is preheated and dehydrated by drying and dehydrating in the drying bed. , obtaining a pre-oxidized high vanadium high chromium type vanadium titanium magnetite pellet, wherein the drying bed temperature is controlled to 750 ° C, the hood temperature is controlled to 210 ° C, the layer thickness is controlled to 140 mm, and the drying time is 9min;

The compressive strength of the pre-oxidized high vanadium high chromium type vanadium titanium magnetite pellets is 400 N/piece.

Step 7, shaft furnace roasting

The pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is dried in a shaft furnace to obtain a high-vanadium high-chromium-type vanadium-titanium magnetite pellet after calcination; the roasting process is: a combustion chamber The temperature is 1250 ° C, the combustion chamber pressure is 7 kPa, the gas pressure is 20 kPa, the combustion air pressure is 18 kPa, and the baking time is 10 min;

Step 8, cooling

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets are discharged from the bottom of the shaft furnace after being cooled by the furnace to obtain high vanadium and high chromium vanadium-titanium magnetite pellets.

The high vanadium high chromium type vanadium titanomagnetite pellet prepared in this embodiment has a TFe of 64.22 wt.%, and the chemical composition and mass percentage thereof are: Fe ₂ O ₃ : 91.41%, FeO: 0.3% , V ₂ O ₅ : 0.45%, TiO ₂ : 2.29%, Cr ₂ O ₃ : 0.22%, CaO: 0.11%, SiO ₂ : 3.18%, MgO: 0.32%, Al ₂ O ₃ : 1.62%, balance Inevitable impurities.

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets have a compressive strength of 2,500 N/piece and a reduction expansion ratio of 11.9%.

Example 2

The preparation method of high vanadium and high chromium type vanadium-titanium magnetite pellets is achieved by the following steps: grinding, compounding, drying and mixing, adding bottom water mixing, dip material, pelletizing, green ball screening, baking Intervene oxidation, shaft furnace roasting, cooling, the specific steps are:

Step 1, grinding

The high vanadium and high chromium type vanadium-titanium magnetite is ground and the grinding time is 8 min, and the high-vanadium high-chromium vanadium-titanium magnetite powder after grinding is obtained, and the fineness is -200 mesh ≥90%;

The grinding machine adopts a grinding machine, wherein the process parameters of the grinding machine are: MR3870, the outer dimension is 16.4m×8.74m×7.59m, the inner diameter of the cylinder is 3.8m, and the cylinder works. The length is 7.0m, the effective capacity of the cylinder is 73.6m ³ , the working revolution of the cylinder is 14.3r/min, and the maximum loading of the grinding machine is 11.3t of material and 83t of steel ball;

Step 2, ingredients

According to the raw material composition of the high vanadium and high chromium type vanadium titanium magnetite pellets and the weight ratio thereof, the raw materials are weighed and uniformly mixed to obtain a mixed material;

The high vanadium and high chromium type vanadium-titanium magnetite pellets are prepared by grinding high-vanadium and high-chromium vanadium-titanium magnetite powder, iron material and bentonite, wherein the weight ratio of each component is:

High-vanadium and high-chromium vanadium-titanium magnetite powder after grinding: 54 parts, iron material: 46 parts, bentonite: 1.0 part;

The milled high vanadium high chromium type vanadium titanium magnetite powder is a high vanadium high chromium type with a fineness of -200 mesh ≥90% obtained by grinding high vanadium and high chromium type vanadium titanium magnetite. Vanadium-titanium magnetite powder;

The iron material contains components and parts by weight thereof: ordinary iron ore fines: 100 parts; wherein, ordinary iron ore fines have a particle size of ≤ 0.5 mm, 90%, and the maximum particle diameter is ≤ 3 mm;

The bentonite has a particle size of ≤200 mesh;

Step 3, drying

The mixture was placed in a dry box and dried at 110 ° C until the moisture content of the mixture was 6%, and the dried mixture was obtained;

Step 4, add bottom water mix, dip

The dried mixture material is added to water by atomization and water addition, and uniformly mixed, and then the mixture material added with water is covered with a plastic bag, and the mixture is poured for 30 minutes to obtain a good material; wherein the amount of water added is dried. 2% of the mass of the subsequent mixture;

Step 5, pelletizing and sieving

The simmered material is placed in a disc pelletizer, and water is added to control the moisture content of the high vanadium high chromium type vanadium titanium magnetite ball to be controlled at 9%, and the spheroid is obtained by sieving to obtain a particle size of 9 ～. 15mm high vanadium and high chromium vanadium-titanium magnetite ore ball;

The screening is specifically a roller screen, which is specifically for screening a high vanadium high chromium type vanadium titanium magnetite ball obtained by a disc spherizing mechanism through a gap between the sieve rolls, and the particle size is 9-15 mm. The high vanadium and high chromium type vanadium-titanium magnetite ore ball enters the next step, and the high vanadium high chromium type vanadium titanium magnetite ball with a particle size of less than 9 mm is returned to the disc pelletizer of step 5 to continue the ball formation, and the particle size is greater than 15 mm. The high vanadium high chromium type vanadium titanium magnetite ore ball is broken into ore powder and returned to the disc pelletizer of step 5 for pelletizing.

The prepared high vanadium and high chromium type vanadium-titanium magnetite pellets have a green particle size of 9 to 15 mm, a green ball drop strength of 4 times/piece, and a compressive strength of 11.6 N/piece.

Step 6, drying pre-oxidation

The high vanadium and high chromium type vanadium-titanium magnetite ball with a particle size of 9-15 mm is evenly distributed into the drying bed at the top of the shaft furnace through a cloth machine, and is preheated and oxidized by drying and dehydrating in the drying bed. , obtaining a pre-oxidized high vanadium high chromium type vanadium titanium magnetite pellet, wherein the drying bed temperature is controlled to 650 ° C, the hood temperature is controlled to 160 ° C, the layer thickness is controlled to 100 mm, and the drying time is 5min;

The compressive strength of the pre-oxidized high vanadium high chromium type vanadium titanium magnetite pellets was 330 N/piece.

Step 7, shaft furnace roasting

The pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is dried in a shaft furnace to obtain a high-vanadium high-chromium-type vanadium-titanium magnetite pellet after calcination; the roasting process is: a combustion chamber The temperature is 1150 ° C, the combustion chamber pressure is 7 kPa, the gas pressure is 18 kPa, the combustion air pressure is 16 kPa, and the baking time is 18 min;

Step 8, cooling

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets are discharged from the bottom of the shaft furnace after being cooled by the furnace to obtain high vanadium and high chromium vanadium-titanium magnetite pellets.

The high vanadium high chromium type vanadium titanomagnetite pellet obtained has a TFe of 62.42 wt.%, and the chemical composition and mass percentage thereof are: Fe ₂ O ₃ : 88.84%, FeO: 0.30%, V ₂ O ₅ : 0.47%, TiO ₂ : 3.10%, Cr ₂ O ₃ : 0.35%, CaO: 0.11%, SiO ₂ : 4.77%, MgO: 0.32%, Al ₂ O ₃ : 1.62%, the balance is inevitable Impurities.

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets have a compressive strength of 2260 N/piece and a reduction expansion ratio of 13.8%.

The embodiment adopts the disc cutting machine to cut the material, ensure the accuracy of each disc cutting, adhere to the running plate system, ensure that the iron material is tested once every 15 minutes, the fluctuation range is within ±0.5kg/m; bentonite per 25 The minute run is detected once, each time it is run five times, and the average value is fluctuated within ±0.02kg/m.

Example 3

The preparation method of high vanadium and high chromium type vanadium-titanium magnetite pellets is achieved by the following steps: grinding, compounding, drying and mixing, adding bottom water mixing, dip material, pelletizing, green ball screening, baking Intervene oxidation, shaft furnace roasting, cooling, the specific steps are:

Step 1, grinding

The high vanadium and high chromium type vanadium-titanium magnetite is ground and the grinding time is 10 min, and the high-vanadium high-chromium vanadium-titanium magnetite powder after grinding is obtained, and the fineness is -200 mesh ≥90%;

The grinding machine adopts a grinding machine, wherein the process parameters of the grinding machine are: the size of the grinding machine is MR2265, the outer dimension is 10.97m×5.62m×4.05m, the inner diameter of the cylinder is 2.2m, and the cylinder works. The length is 6.5m, the effective capacity of the cylinder is 21.4m3, the working revolution of the cylinder is 21.95r/min, and the maximum load of the grinding machine is 3.4t of material and 24t of steel ball;

Step 2, ingredients

According to the raw material composition of the high vanadium and high chromium type vanadium titanium magnetite pellets and the weight ratio thereof, the raw materials are weighed and uniformly mixed to obtain a mixed material;

The high vanadium and high chromium type vanadium-titanium magnetite pellets are prepared by grinding high-vanadium and high-chromium vanadium-titanium magnetite powder, iron material and bentonite, wherein the weight ratio of each component is:

High vanadium and high chromium vanadium-titanium magnetite powder after grinding: 52 parts, iron material: 48 parts, bentonite: 0.9 parts;

The milled high vanadium high chromium type vanadium titanium magnetite powder is a high vanadium high chromium type with a fineness of -200 mesh ≥90% obtained by grinding high vanadium and high chromium type vanadium titanium magnetite. Vanadium-titanium magnetite powder;

The iron material contains components and parts by weight: ordinary iron ore fines: 70 parts, ordinary ultrafine iron powder: 30 parts; wherein, ordinary iron ore fines have a particle size of ≤ 0.5 mm, accounting for 90%, and The maximum particle size is ≤3mm; the fineness of ordinary ultrafine iron powder is -200 mesh ≥95%;

The bentonite has a particle size of ≤200 mesh;

Step 3, drying

The mixture is placed in a dry box and dried at 110 ° C until the water content of the mixture is 7%, and the dried mixture is obtained;

Step 4, add bottom water mix, dip

The dried mixture is added to the water by atomization and water addition, and evenly mixed, and then the mixture of water added is covered with a plastic bag, and the mixture is kneaded for 40 minutes to obtain a mashed material; wherein the amount of water added is dried. 2.2% of the mass of the subsequent mixture;

Step 5, pelletizing and sieving

The simmered material is placed in a disc pelletizer, and water is added to control the water content of the high vanadium high chromium type vanadium titanium magnetite ball to be controlled at 10%, and the ball is sifted to obtain a particle size of 9 ～. 16mm high vanadium high chromium vanadium titanium magnetite ball;

The screening is specifically a roll screen, which is specifically for screening a high vanadium high chromium type vanadium titanium magnetite ball obtained by a disc ball making mechanism through a gap between the sieve rolls, and the particle size is 9-16 mm. The high vanadium and high chromium type vanadium-titanium magnetite ore ball enters the next step, and the high vanadium high chromium type vanadium-titanium magnetite ore ball with a particle size of less than 9 mm is returned to the disc pelletizer of step 5 to continue the ball formation, and the particle size is larger than 16 mm. The high vanadium high chromium type vanadium titanium magnetite ore ball is broken into ore powder and returned to the disc pelletizer of step 5 for pelletizing.

The prepared high vanadium and high chromium type vanadium-titanium magnetite pellets have a green particle size of 9 to 16 mm, a green ball drop strength of 5 times/piece, and a compressive strength of 12 N/piece.

Step 6, drying pre-oxidation

The particle size of 9~16mm is evenly distributed into the drying bed at the top of the shaft furnace through the cloth machine, and pre-heated and oxidized by drying and dehydration in the drying bed to obtain the dried pre-oxidized high-vanadium high-chromium vanadium. Titanium magnetite pellets, wherein the temperature of the drying bed is controlled to 750 ° C, the temperature of the hood is controlled to 210 ° C, the thickness of the layer is controlled to be 140 mm, and the drying time is 9 min;

The compressive strength of the pre-oxidized high vanadium high chromium type vanadium titanium magnetite pellets is 360 N/piece.

Step 7, shaft furnace roasting

The pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is dried in a shaft furnace to obtain a high-vanadium high-chromium-type vanadium-titanium magnetite pellet after calcination; the roasting process is: a combustion chamber The temperature is 1250 ° C, the combustion chamber pressure is 11 kPa, the gas pressure is 20 kPa, the combustion air pressure is 18 kPa, and the baking time is 10 min;

Step 8, cooling

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets are discharged from the bottom of the shaft furnace after being cooled by the furnace to obtain high vanadium and high chromium vanadium-titanium magnetite pellets.

The prepared high vanadium high chromium type vanadium titanium magnetite pellets have a TFe of 63.18 wt.%, and the chemical components and mass percentage thereof are: Fe ₂ O ₃ : 89.79%, FeO: 0.47%, V ₂ O ₅ : 0.48%, TiO ₂ : 2.56%, Cr ₂ O ₃ : 0.29%, CaO: 0.22%, SiO ₂ : 3.32%, MgO: 0.89%, Al ₂ O ₃ : 1.96%, the balance is unavoidable Impurities.

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets have a compressive strength of 2410 N/piece and a reduction expansion ratio of 12.8%.

Example 4

The preparation method of high vanadium and high chromium type vanadium-titanium magnetite pellets is achieved by the following steps: grinding, compounding, drying and mixing, adding bottom water mixing, dip material, pelletizing, green ball screening, baking Intervene oxidation, shaft furnace roasting, cooling, the specific steps are:

Step 1, grinding

The high vanadium and high chromium type vanadium-titanium magnetite is ground and the grinding time is 5 min, and the high-vanadium high-chromium vanadium-titanium magnetite powder after grinding is obtained, and the fineness is -200 mesh ≥90%;

The grinding machine adopts a grinding machine, wherein the process parameters of the grinding machine are: the size of the grinding machine is MR3254, the outer dimension is 13.4m×7.25m×5.7m, the inner diameter of the cylinder is 3.2m, and the cylinder works. The length is 5.4m, the effective capacity of the cylinder is 39.5m ³ , the working revolution of the cylinder is 16.5r/min, and the maximum loading of the grinding machine is 6t of material and 44t of steel ball;

Step 2, ingredients

According to the raw material composition of the high vanadium and high chromium type vanadium titanium magnetite pellets and the weight ratio thereof, the raw materials are weighed and uniformly mixed to obtain a mixed material;

The high vanadium and high chromium type vanadium-titanium magnetite pellets are prepared by grinding high-vanadium and high-chromium vanadium-titanium magnetite powder, iron material and bentonite, wherein the weight ratio of each component is:

High vanadium and high chromium vanadium-titanium magnetite powder after grinding: 56 parts, iron material: 44 parts, bentonite: 1.1 parts;

The milled high vanadium high chromium type vanadium titanium magnetite powder is a high vanadium high chromium type with a fineness of -200 mesh ≥90% obtained by grinding high vanadium and high chromium type vanadium titanium magnetite. Vanadium-titanium magnetite powder;

The iron material contains components and parts by weight: ordinary iron ore fines: 85 parts, ordinary ultrafine iron powder: 15 parts; wherein, ordinary iron ore fines have a particle size of ≤ 0.5 mm, accounting for 90%, and The maximum particle size is ≤3mm; the fineness of ordinary ultrafine iron powder is -200 mesh ≥95%;

The bentonite has a particle size of ≤200 mesh;

Step 3, drying

The mixture is placed in a dry box and dried at 110 ° C until the moisture content of the mixture is 8%, and the dried mixture is obtained;

Step 4, add bottom water mix, dip

The dried mixture is added to the water by atomization and water addition, and evenly mixed, and then the mixture of water added is covered with a plastic bag, and the mixture is kneaded for 50 minutes to obtain a good material; wherein the amount of water added is dried. 1.8% of the mass of the subsequent mixture;

Step 5, pelletizing and sieving

The simmered material is placed in a disc pelletizer, and water is added to control the water content of the high vanadium high chromium type vanadium titanium magnetite ball to be controlled at 11%, and the granules are sieved to obtain a particle size of 8 ～. 15mm high vanadium and high chromium vanadium-titanium magnetite ore ball;

The sieving is specifically a roll screen, which is specifically for sieving the high vanadium high chromium type vanadium titanium magnetite ball obtained by the disc spherizing mechanism through the gap between the sieve rolls, and the particle size is 8-15 mm. The high vanadium and high chromium type vanadium-titanium magnetite ore ball enters the next step, and the high vanadium high chromium type vanadium titanium magnetite ore ball with a particle size of less than 8 mm is returned to the disc pelletizer of step 5 to continue the ball formation, and the particle size is greater than 15 mm. The high vanadium high chromium type vanadium titanium magnetite ore ball is broken into ore powder and returned to the disc pelletizer of step 5 for pelletizing.

The prepared high vanadium and high chromium type vanadium-titanium magnetite pellets have a green ball size of 8 to 15 mm, a green ball drop strength of 4 times/piece, and a compressive strength of 10 N/piece.

Step 6, drying pre-oxidation

The grain size of 8~15mm is evenly distributed into the drying bed at the top of the shaft furnace through the cloth machine, and pre-heated and oxidized by drying and dehydration in the drying bed to obtain the high-vanadium high-chromium vanadium which is pre-oxidized by drying. Titanium magnetite pellets, wherein the temperature of the drying bed is controlled to 700 ° C, the temperature of the hood is controlled to 190 ° C, the thickness of the layer is controlled to be 120 mm, and the drying time is 7 min;

The compressive strength of the pre-oxidized high vanadium high chromium type vanadium titanomagnetite pellets is 300 N/piece.

Step 7, shaft furnace roasting

The pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is dried in a shaft furnace to obtain a high-vanadium high-chromium-type vanadium-titanium magnetite pellet after calcination; the roasting process is: a combustion chamber The temperature is 1200 ° C, the combustion chamber pressure is 9 kPa, the gas pressure is 19 kPa, the combustion air pressure is 17 kPa, and the baking time is 14 min;

Step 8, cooling

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets are discharged from the bottom of the shaft furnace after being cooled by the furnace to obtain high vanadium and high chromium vanadium-titanium magnetite pellets.

The prepared high vanadium high chromium type vanadium titanomagnetite pellets have a TFe of 61.88 wt.%, and the chemical components and mass percentage thereof are: Fe ₂ O ₃ : 87.51%, FeO: 0.8%, V ₂ O ₅ : 0.62%, TiO ₂ : 3.20%, Cr ₂ O ₃ : 0.48%, TFe: 61.88%, CaO: 0.63%, SiO ₂ : 3.25%, MgO: 0.34%, Al ₂ O ₃ : 3.06%, The amount is an inevitable impurity.

The calcined high vanadium and high chromium type vanadium-titanium magnetite pellets have a compressive strength of 2200 N/piece and a reduction expansion ratio of 16.4%.

Comparative example

The preparation method of high vanadium and high chromium type vanadium-titanium magnetite pellets is achieved by the following steps: batching, drying and mixing, adding bottom water mixing, dip material, pelletizing, green ball screening, drying pre-oxidation , shaft furnace roasting, cooling, the specific steps are:

Step 1, ingredients

According to the raw material composition of the high vanadium and high chromium type vanadium titanium magnetite pellets and the weight ratio thereof, the raw materials are weighed and uniformly mixed to obtain a mixed material;

Step 2, drying

The mixture is placed in a dry box and dried at 110 ° C until the water content of the mixture is 7%, and the dried mixture is obtained;

The high vanadium and high chromium vanadium-titanium magnetite pellets are prepared from untreated high vanadium and high chromium vanadium-titanium magnetite powder, iron material and bentonite, wherein the weight ratio of each component is:

Untreated high-vanadium high-chromium vanadium-titanium magnetite powder: 52 parts, iron material: 48 parts, bentonite: 0.9 parts;

The iron material contains components and parts by weight: ordinary iron ore fines: 70 parts, ordinary ultrafine iron powder: 30 parts; wherein, ordinary iron ore fines have a particle size of ≤ 0.5 mm, accounting for 90%, and The maximum particle size is ≤3mm; the fineness of ordinary ultrafine iron powder is -200 mesh ≥95%;

The bentonite has a particle size of ≤200 mesh;

Step 3, add bottom water mix, dip

The dried mixture is added to the water by atomization and water addition, and evenly mixed, and then the mixture of water added is covered with a plastic bag, and the mixture is kneaded for 40 minutes to obtain a mashed material; wherein the amount of water added is dried. 2.2% of the mass of the subsequent mixture;

Step 4, pelletizing and sieving

The simmered material is placed in a disc pelletizer, and water is added to control the water content of the high vanadium high chromium type vanadium titanium magnetite ball to be controlled at 10%, and the ball is sifted to obtain a particle size of 9 ～. 16mm high vanadium high chromium vanadium titanium magnetite ball;

The screening is specifically a roll screen, which is specifically for screening a high vanadium high chromium type vanadium titanium magnetite ball obtained by a disc ball making mechanism through a gap between the sieve rolls, and the particle size is 9-16 mm. The high vanadium and high chromium type vanadium-titanium magnetite ore ball enters the next step, and the high vanadium high chromium type vanadium-titanium magnetite ore ball with a particle size of less than 9 mm is returned to the disc pelletizer of step 5 to continue the ball formation, and the particle size is larger than 16 mm. The high vanadium high chromium type vanadium titanium magnetite ore ball is broken into ore powder and returned to the disc pelletizer of step 5 for pelletizing.

The prepared high vanadium and high chromium type vanadium-titanium magnetite pellets have a green ball size of 6 to 12 mm, a green ball drop strength of 2 times/piece, and a compressive strength of 7 N/piece.

Step 5, drying pre-oxidation

The particle size of 9~16mm is evenly distributed into the drying bed at the top of the shaft furnace through the cloth machine, and pre-heated and oxidized by drying and dehydration in the drying bed to obtain the dried pre-oxidized high-vanadium high-chromium vanadium. Titanium magnetite pellets, wherein the temperature of the drying bed is controlled to 750 ° C, the temperature of the hood is controlled to 210 ° C, the thickness of the layer is controlled to be 140 mm, and the drying time is 9 min;

The pre-oxidized high vanadium high chromium type vanadium titanium magnetite pellets have a compressive strength of 200 N/piece.

Step 6, shaft furnace roasting

The pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is dried in a shaft furnace to obtain a high-vanadium high-chromium-type vanadium-titanium magnetite pellet after calcination; the roasting process is: a combustion chamber The temperature is 1250 ° C, the combustion chamber pressure is 11 kPa, the gas pressure is 20 kPa, the combustion air pressure is 18 kPa, and the baking time is 10 min;

Step 7, cooling

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets are discharged from the bottom of the shaft furnace after being cooled by the furnace to obtain high vanadium and high chromium vanadium-titanium magnetite pellets.

The obtained high vanadium high chromium type vanadium titanium magnetite pellet has a TFe of 63.28 wt.%, and the chemical composition and mass percentage thereof are: Fe ₂ O ₃ : 89.79%, FeO: 0.47%, V ₂ O ₅ : 0.48%, TiO ₂ : 2.86%, Cr ₂ O ₃ : 0.27%, CaO: 0.22%, SiO ₂ : 3.26%, MgO: 0.53%, Al ₂ O ₃ : 1.92%, the balance is inevitable Impurities.

The calcined high vanadium and high chromium vanadium-titanium magnetite pellets have a compressive strength of 1520 N/piece and a reduction expansion ratio of 25%.

Claims (7)

1. A preparation method of high vanadium and high chromium type vanadium titanium magnetite pellets, characterized in that the preparation method of the high vanadium high chromium type vanadium titanium magnetite pellets is realized by the following steps:

   Step 1, grinding

   The high vanadium and high chromium type vanadium-titanium magnetite is ground and the grinding time is 5 to 15 minutes, and the high vanadium and high chromium type vanadium-titanium magnetite powder after grinding is obtained, and the fineness is -200 mesh ≥ 90 %;

   Wherein, the grinding process adopts a grinding machine, wherein the process parameters of the grinding machine are: the working rotation number of the cylinder is 14.3-21.95r/min, and the ratio of the ball of the grinding machine is: (3.4~11.3): (24-83);

   Step 2, ingredients

   According to the raw material composition of the high vanadium and high chromium type vanadium titanium magnetite pellets and the weight ratio thereof, the raw materials are weighed and uniformly mixed to obtain a mixed material;

   Among them, the high vanadium and high chromium type vanadium-titanium magnetite pellets are prepared by grinding high-vanadium and high-chromium vanadium-titanium magnetite powder, iron material and bentonite, wherein the weight ratio of each component is:

   High vanadium and high chromium vanadium-titanium magnetite powder after grinding: 51-56 parts, iron material: 44-49 parts, bentonite: 0.8-1.1 parts;

   The milled high vanadium high chromium type vanadium titanium magnetite powder is a high vanadium high chromium type with a fineness of -200 mesh ≥90% obtained by grinding high vanadium and high chromium type vanadium titanium magnetite. vanadium and titanium magnetite powder, comprising the TFe is 61 ~ 63wt%, and the mass percentage of chemical components comprising of:. FeO: 26 ~ 28% , Fe 3 O 4: 54.06 ~ 58.97%, V 2 O 5: 0.9 to 1.1%, TiO ₂ : 4.5 to 5.5%, Cr ₂ O ₃ : 0.45 to 0.85%, CaO: 0.16 to 0.26%, SiO ₂ : 2 to 3%, MgO: 0.5 to 1.0%, Al ₂ O ₃ : 2.5 to 4.0%, the balance is an inevitable impurity;

   The iron material contains components and parts by weight thereof: ordinary iron ore powder: 70 to 100 parts; ordinary ultrafine iron powder: 0 to 30 parts;

   Wherein, the ordinary iron ore fine powder has a particle size of ≤0.5 mm, and the maximum particle diameter is ≤3 mm;

   Ordinary ultrafine iron powder has a fineness of -325 mesh ≥ 85% or -200 mesh ≥ 95%;

   The bentonite has a particle size of ≤200 mesh, and the components thereof and the mass percentage thereof are: SiO ₂ : 66 to 69%, Al ₂ O ₃ : 13 to 16%, MgO: 4 to 5%, and CaO: 2 to 3 %, Na ₂ O ≤ 1.7%, K ₂ O ≤ 1.2%, the balance is an unavoidable impurity;

   Step 3, drying

   Drying the mixture to a moisture content of the mixture of 6 to 8%, to obtain a mixture after drying;

   Step 4, add bottom water mix, dip

   The dried mixture material is added to water, and uniformly mixed, and then dip for 30 to 50 minutes to obtain a mashed material; wherein the amount of water added is 1.8 to 2.2% of the mass of the mixture after drying;

   Step 5, pelletizing and sieving

   The enamel material is placed in a disc pelletizer, water is added, so that the water content of the high vanadium high chromium type vanadium titanium magnetite ball is controlled to be 9-11%, the ball is formed, and the particle size is obtained by sieving. 8 to 16 mm high vanadium and high chromium vanadium-titanium magnetite ore ball;

   Step 6, drying pre-oxidation

   The high vanadium high chromium vanadium-titanium magnetite ore ball with a particle size of 8-16 mm is evenly distributed into the drying bed at the top of the shaft furnace through a cloth machine, and preheated and oxidized by drying and dehydrating in the drying bed. The pre-oxidized high vanadium and high chromium vanadium-titanium magnetite pellets are obtained, wherein the temperature of the drying bed is controlled to be 650-750 ° C, the temperature of the hood is controlled to 160-210 ° C, and the thickness of the layer is controlled to 100-140 mm. Drying time is 5-9 min;

   Step 7, shaft furnace roasting

   The pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is dried in a shaft furnace to obtain a high-vanadium high-chromium-type vanadium-titanium magnetite pellet after calcination; the roasting process is: a combustion chamber The temperature is 1150～1250°C, the combustion chamber pressure is 7～11kPa, the gas pressure is 18～20kPa, the combustion air pressure is 16～18kPa, and the baking time is 10～18min;

   Step 8, cooling

   The calcined high vanadium and high chromium vanadium-titanium magnetite pellets are discharged from the bottom of the shaft furnace after being cooled by the furnace to obtain high vanadium and high chromium vanadium-titanium magnetite pellets.
2. The method for preparing a high vanadium high chromium type vanadium titanomagnetite pellet according to claim 1, wherein the prepared high vanadium high chromium vanadium titanomagnetite pellet comprises a TFe of 61.88 to 64.22. Wt.%, containing chemical components and mass percentages thereof: Fe ₂ O ₃ : 87.51 to 91.41%, FeO: 0.3 to 0.8%, V ₂ O ₅ : 0.45 to 0.62%, TiO ₂ : 2.29 to 3.20%, Cr ₂ O ₃ : 0.22 to 0.48%, CaO: 0.11 to 0.63%, SiO ₂ : 3.18 to 4.77%, MgO: 0.32 to 0.89%, and Al ₂ O ₃ : 1.62 to 4.0%, and the balance is an unavoidable impurity.
3. The method for preparing a high vanadium high chromium type vanadium titanomagnetite pellet according to claim 1, wherein the prepared high vanadium high chromium type vanadium titanium magnetite pellet has a green ball size of 8 to 16 mm. The falling strength of the raw ball is ≥4 times/piece, the compressive strength is ≥10N/piece, and the compressive strength of the pre-oxidized high-vanadium high-chromium-type vanadium-titanium magnetite pellet is ≥300N/piece, and the height after firing is high. The compressive strength of vanadium high chromium vanadium-titanium magnetite pellets is ≥2200N/piece, and the reduction expansion ratio of pellets is ≤16.4%.
4. The method for preparing a high vanadium high chromium type vanadium titanomagnetite pellet according to claim 1, wherein in the step 3, the drying is: placing the mixture in a drying box. Drying is carried out at 90 to 110 ° C until the water content of the mixture is 6 to 8%.
5. The method for preparing a high vanadium high chromium type vanadium titanomagnetite pellet according to claim 1, wherein in the step 4, the method of adding water adopts atomization and water addition.
6. The method for preparing a high vanadium high chromium type vanadium titanomagnetite pellet according to claim 1, wherein in the step 4, the material is covered with a plastic bag or a plastic paper. Mixture.
7. The method for preparing a high vanadium high chromium type vanadium titanomagnetite pellet according to claim 1, wherein in the step 5, the screening is specifically a roll screen, which is specifically a disc. The high-vanadium and high-chromium vanadium-titanium magnetite ball produced by the ball-making mechanism is sieved through the gap between the sieve rolls, and the high-vanadium-high-chromium-type vanadium-titanium magnetite ball with a particle size of 8 to 16 mm proceeds to the next step. The high vanadium high chromium type vanadium titanium magnetite ball with a particle size of less than 8 mm is returned to the disc pelletizer of step 5 to continue the ball formation, and the high vanadium high chromium type vanadium titanium magnetite ball having a particle size larger than 16 mm is broken. Return to the disc pelletizer of step 5 to continue the balling.