JP2000239751A - Granulation method of sintering raw material - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To granulate a sintering raw material, uniformly and efficiently add a binder to improve pseudo-granulation properties. SOLUTION: When granulating raw material ore, fuel, and a blending raw material 2 using a granulator 1 while adding water, the raw material is ejected from a watering nozzle 3 located in the granulator 1. The raw material mixture 2 is granulated while blowing the binder 8 into the water basin 4 with the blowing pipe 10. As the binder 8, it is preferable to use quicklime or a granulation additive that is a polymer having a hydrophilic group or a hydrophilic group and a hydrophobic group.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a sintered ore used as a raw material for a blast furnace.
The present invention relates to a method for granulating a sintering raw material in which water and a binder are added to a blended raw material such as a fuel to granulate.

[0002]

2. Description of the Related Art Generally, in the production of sintered ore, before firing the raw material for sintering, first, compounding materials such as iron ore, fuel, and auxiliary materials are mixed by a granulator such as a drum mixer, a pelletizer, an Erich mixer, or the like. Mix and granulate while adding water to produce pseudo particles. Here, the pseudo particle generally means 0.5 mm
The following fine particles are granular materials formed by adhering to core particles of 1 to 3 mm, and the mixing raw material is made into pseudo particles as described above, whereby air permeability in a sintering raw material packed layer on a sintering machine is obtained. And the productivity of the sintering machine can be improved.

[0003] Accordingly, what is required in the granulation process of the sintering raw material is to improve the granulation property (pseudo-granulation property) of the pseudo-particles formed by the fine powder particles adhering around the core particles, and to obtain the same. The pseudo particles are less likely to collapse in the firing process, for example, in a wet zone or a dry zone.

[0004] For this purpose, as a countermeasure for improving the pseudo-granulation property, a number of granulation additives such as quicklime and methods of addition have been proposed.

[0005] For example, Japanese Patent Application Laid-Open No. 58-120747 discloses that "a sub-material such as quicklime powder is blown into a mixing and granulating apparatus together with a hot fluid utilizing waste heat generated in a heating facility, thereby making sintering possible. (Blending) At the same time as enhancing the mixing effect of the raw materials,
By giving a preheating effect to the mixed raw material, the quality and productivity of the sintered ore can be improved. " But,
When the tip of the auxiliary material blowing pipe was immersed in the raw material in the drum mixer, even if the hot fluid was blown, the adverse effect of clogging the nozzle due to the raw material adhesion and further inhibiting the flow of the raw material was large.

JP-A-62-225238 discloses that
"Efficient quasi-granulation can be achieved by adding a quasi-granulation accelerator with a spray pipe installed in the stagnation area of the movement area of the charged (blended) raw material in the drum mixer." I have. However, even in the stagnation area, there is a raw material rather than a complete space, and the stagnation area often collapses due to an avalanche phenomenon. It was intense. Furthermore, the location of the small stagnation area changes with time due to changes in the number of rotations and the amount of charge, and therefore, it has been extremely difficult to control the area.

[0007]

SUMMARY OF THE INVENTION These conventional methods are:
In each case, the clogging of the nozzle due to the adhesion of the raw material to the injection pipe or the spray pipe and the obstruction of the flow of the raw material were not solved, and the auxiliary raw material and binder (pseudo-granulation accelerator) were stably added in the drum mixer. There was a problem in how to do it.

By the way, a mechanism as shown in FIG. 2 is used as a drum mixer for granulating compounded raw materials. A watering nozzle 3 is installed in the drum mixer 1, and water is sprayed on a region where the compounding material 2 is moving. Further, a binder is sprayed from the watering nozzle 3.

In the case of granulating with such a drum mixer 1, when lime is added to the water beforehand when water is sprayed from above in the drum mixer 1 to the movement region of the compounding material, the hydration reaction is instantaneously performed. As a result, heat is generated, so that the effect of preheating the raw material at the time of adding quick lime cannot be obtained, so that quick lime having low activity is added, and the effect of improving pseudo-granulation property is reduced.

[0010] Further, when an additive which increases the viscosity of water is added to the added water as a binder, there are problems such as clogging of a watering nozzle and a new step of dissolving is required.

An object of the present invention is to provide a method for granulating a sintering raw material which can stably and uniformly granulate ideal pseudo particles by adding a binder.

[0012]

The gist of the present invention is as follows.

(1) In a method of granulating a blended raw material containing a raw material ore, a fuel and a solvent by using a granulator while adding water, the water spouted from a watering nozzle located in the granulator is used. A method of granulating a sintering raw material, comprising granulating the compounded raw material while blowing a binder into a basin with a blowing pipe.

(2) The method of (1) above, wherein quicklime is used as a binder.

(3) The method for granulating a sintering raw material according to the above (1) or (2), wherein a granulating additive which is a polymer having a hydrophilic group or a hydrophilic group and a hydrophobic group is used as a binder. .

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described with reference to FIG.

FIG. 1 (a) shows a cross section of a drum mixer 1 which is an example of a granulator used in the embodiment of the present invention. The compounding raw material 2 is charged into the drum mixer 1,
By the rotation of the drum mixer 1, the drum mixer 1 moves while forming the rolling zone 5 and the transport zone 6. The watering nozzle 3 is installed above the inside of the drum mixer 1. In the present invention, the binder 8 is blown into the water basin 4 spouted from the watering nozzle 3 to add the water and the binder to the compounding raw material 2 in a mixed state. As shown in FIG. 1B, the binder 8 is blown into the water flow area 4 immediately below the watering nozzle 3 by using an injection feeder 9 together with compressed air via a blowing pipe 10.

By blowing the binder 8, which is a fine powder such as quicklime, in this way, the flow of the raw material is not hindered by the blowing pipe, and the raw material does not adhere to the blowing pipe itself and cause clogging of the nozzle portion. . Furthermore, since it can be mixed with the whole raw material together with the added water, uniformly granulated pseudo particles can be stably obtained. Furthermore, since it is mixed with water just before being added to the compounding raw material, when using a binder that generates heat by a hydration reaction, such as quicklime, it is possible to maximize the effect of improving the pseudo-granulation property by preheating. it can.

Further, when a binder which is a fine powder is directly injected in a drum mixer, a large amount of the binder is ejected out of the drum mixer as dust without being added to the raw material. Thus, a state in which the fine powder is caught in the water stream is formed, so that the binder can be efficiently added to the compounding raw material without generating dust.

Although the binder used in the present invention is not particularly limited, it is a polymer having a hydrophilic group or a hydrophilic group and a hydrophobic group in addition to quicklime, which increases the viscosity of water and improves pseudo-granulation. Also preferred are water-soluble additives. For example,
As a semi-synthetic polymer having a hydrophilic group modified from a natural polymer, or a hydrophilic group and a hydrophobic group, methyl cellulose,
Ethyl cellulose, carboxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl methyl cellulose and the like can be mentioned. These binders are water-soluble, but required a long time to dissolve in water. However, in the present invention, these binders can be instantaneously dissolved by spraying these binders into the water basin from the watering nozzle. These polymeric granulating additives can be used in combination with quicklime.

In addition, when these binders are used, if they are dissolved in water in advance, the viscosity of the water increases, which has a bad effect of clogging the watering nozzle. Since the binder is directly added to the water basin, the binder can be stably added without causing such a problem of nozzle clogging.

[0022]

The present invention will be described in more detail with reference to Comparative Examples and Examples 1 and 2.

Table 1 shows the mixing ratios of the mixing raw materials used in this experiment. Blending raw materials, SiO ₂ in the sintered ore limestone, serpentine, scale as various iron ore and ZatsuHara fee, Al ₂
O ₃ was adjusted to be 5.2% and 1.8%, respectively, and the basicity was adjusted to be 1.8. At the time of blending quicklime, the basicity was adjusted to be constant by subtracting limestone corresponding to the reaction efficiency. The returned ore blending ratio was constant at 15.0 wt% for the new raw material, and the coke blending ratio was constant at 4.0 wt% for the new raw material. Comparative Examples and Examples 1 and 2 had the same composition, and the added water was adjusted to 6.8%. As the granulator, a drum mixer having a rotation speed of 15 rpm, a diameter of 2.5 m and a length of 20 m was used.

[0024]

[Table 1]

In Example 1, 1.0 wt.
% Of quicklime was blown from the blowpipe directly below the watering nozzle. Compressed air is used for blowing gas, pressure is 2.0kg
/ Cm ² and the gas amount was 200 Nm ³ / Hr.

In Example 2, 0.05 w of a new raw material was used.
Carboxymethylcellulose in an amount of t% was blown from a blowing pipe directly below a watering nozzle. Compressed air was used as the blowing gas, the pressure was 2.0 kg / cm ² , and the gas amount was 200 N
m ³ / Hr.

In the comparative example, 1.0 wt% of the new raw material was used.
Of quicklime was cut out from a hopper on a belt conveyor in the same manner as the compounding raw material, and supplied to a drum mixer together with the compounding raw material.

Table 2 shows the GI index, the average particle size, and the JPU of the granulated pseudo particles. In addition, the GI index of the pseudo particle is referred to as Ironmaking Research No. 288 (1976), p9. And the ratio of fine powder adhering around the core particles. JPU is an index indicating air permeability, and was calculated according to Equation 1.

[0029]

(Equation 1)

[0030]

[Table 2]

As can be seen from the results, Examples 1 and 2
As compared with Comparative Example, both the GI index and the average particle size of the pseudo particles significantly increased, and the JPU also improved.

Table 3 shows the production rates, product yields, RDI, and NOx emissions per unit of the sintered ore obtained in the comparative example and Examples 1 and 2.

[0033]

[Table 3]

As can be seen from Table 3, the production rates of Examples 1 and 2 were remarkably improved as compared with Comparative Examples. Further, conventionally, when the production rate is improved, the product yield tends to decrease, but in the present invention, the product yield is improved. In addition, the RDI and NOx emission intensity were improved, and excellent operational and environmental benefits were achieved.

[0035]

According to the present invention, uniform pseudo-particles can be efficiently produced without adhering the raw material to the spray tube of the binder and the like, and the permeability of the raw material layer is improved to improve the air permeability of the raw material layer. The production rate can be greatly improved.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a method for granulating a sintering raw material according to the present invention.

FIG. 2 is a diagram showing a method of granulating a sintering raw material by a conventional drum mixer.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Drum mixer 2 Compounding material 3 Sprinkling nozzle 4 Water flow area 5 Rolling area 6 Transport area 7 Retention area 8 Binder 9 Injection feeder 10 Blow pipe

Continued on the front page (72) Inventor Yozo Hosoya 20-1 Shintomi, Futtsu-shi N-Steel Corporation Technology Development Division F-term (reference) 4K001 AA10 BA04 CA33 CA37 CA37

Claims (3)

[Claims] 1. A method of granulating a blended raw material containing a raw material ore, a fuel, and a solvent using a granulator while adding water, wherein a water basin jetted from a watering nozzle located in the granulator. And granulating the compounded raw material while blowing a binder through a blowing pipe. 2. The method for granulating a sintering raw material according to claim 1, wherein quicklime is used as the binder. 3. The method for granulating a sintering raw material according to claim 1, wherein a granulating additive which is a polymer having a hydrophilic group or a hydrophilic group and a hydrophobic group is used as the binder.