CN102399978A - Manufacture method of iron ore MgO pellet ore - Google Patents

Abstract

A manufacture method of an iron ore MgO pellet ore is especially suitable for factories employing a grate-kiln technology to produce MgO pellet ore. The method comprises steps of burdening, grinding of part of a mixture, mixing, pelletizing and roasting, and is characterized in that part of iron ore powder and high MgO content flux are mixed first, treated with a pretreatment of grinding, then mixed, pelletized and roasted with residual iron ore powder and bentonite. According to the invention, a flux with a MgO content of 60-80% is added into the iron ore powder to generate MgO pellet ore when a flux proportioning is low, so as to avoid disadvantages of decreased pellet ore iron grade and changed pellet ore CaO caused by addition of a large proportion of a flux like dolomite. The pretreatment of grinding on MgO flux and part of the iron ore powder can reduce a pellet preheating temperature and enhance strength of pellet entering into the rotary kiln, so as to solve technical problems of high preheating temperature and low preheating pellet strength in production of MgO pellet ore.

Description

A kind of method of manufacture of iron ore MgO pellet

Technical field

The present invention relates to a kind of method of manufacture of iron ore MgO pellet, it is specially adapted to adopt the chain grate-rotary kiln production line to produce the enterprise of MgO pelletizing.

Background technology

The MgO pellet can improve its high temperature metallurgical properties, and blast-furnace smelting is improved in the following aspects: (1) coke ratio reduces; (2) productivity improves; (3) prolong the blast furnace lining life-span.At present, the production of MgO pellet mainly is with addition of flux such as rhombspar, serpentine, wagnerites, with addition of above-mentioned flux, pellet MgO content when improving, also subsidiary CaO, the SiO that has improved pellet ₂Content causes pellet iron grade to reduce, simultaneously dual alkalinity (the CaO ∕ SiO of pellet ₂) also improve.

Therefore during the blast furnace adapted, also need adjust the basicity of other furnace charge (such as agglomerate), bigger to whole blast furnace burden systematic influence.The preheating of MgO pellet and maturing temperature are higher in addition; During with grate kiln explained hereafter MgO pellet; The preheating temperature of chain-grate machine need reach more than 1000 ℃, could guarantee that the intensity of preheating pellet reaches more than the 400N ∕ ball, and after preheating temperature surpasses 1000 ℃; Chain-grate machine is at high temperature worked for a long time, occurs equipment breakdown easily.

The maturing temperature of chain-grate machine is more than 1000 ℃ the time, if long-time the use damaged the comb plate of chain-grate machine easily, and rotary kiln baking temperature easy ring formation more than 1250 ℃ time the in addition.

 

Be conventional MgO pellet production craft step below:

(1) batching:

Powdered iron ore, ground dolomite and wilkinite carry out weigh batching by following weight percent, and concrete proportioning is:

Powdered iron ore 89 %;

Ground dolomite 9 %;

Wilkinite 2.0 %,

Wherein powdered iron ore is Dai County's powdered iron ore, and granularity is 75% less than the content of 0.074mm, and the water ratio of powdered iron ore is 8.5%; The granularity of ground dolomite is 83% for the ratio less than 0.074mm.

(2) mixing is made ball

Above-mentioned powdered iron ore, ground dolomite and wilkinite through the mixer mixing, are added in the balling disc make up water then and make ball and produce pelletizing, obtain the pelletizing that water ratio is 9.0% (by weight percentage), particle diameter is 9mm-15mm;

(4) roasting

On chain grate-rotary kiln, carry out cloth, roasting, obtain finished pellet; Wherein the thermal regulation of chain-grate machine is: blast temperature is 190-210 ℃, and the exhausting temperature is 210-240 ℃, and the chain-grate machine preheating temperature is 950-1000 ℃, and the rotary kiln baking temperature is 1210-1260 ℃.

When the chain-grate machine preheating temperature was 960 ℃, the preheating pellet strength was a 284N ∕ pelletizing;

When the chain-grate machine preheating temperature was 980 ℃, the preheating pellet strength can reach a 312N ∕ pelletizing,

When the chain-grate machine preheating temperature was 1000 ℃, the preheating pellet strength can reach 387 a ∕ pelletizing,

When the chain-grate machine preheating temperature was 1030 ℃, the preheating pellet strength can reach 457 a ∕ pelletizing,

When the rotary kiln baking temperature was 1210 ℃, finished ball intensity was a 2513N ∕ pelletizing;

When the rotary kiln baking temperature was 1240 ℃, finished ball intensity was a 2741N ∕ pelletizing.

Wherein finished ball nodulizing TFe is 59.8%, and MgO content is 2.12%, SiO ₂Be 6.03%, CaO is 4.65%.

Summary of the invention:

For the above-mentioned deficiency of the method for manufacture that overcomes existing MgO pelletizing, the present invention provides a kind of method of manufacture of MgO pelletizing, and it is low to have preheating temperature with the MgO pelletizing of present method manufacturing, preheating ball advantages of high strength, and can not influence the SiO of pellet ₂Content with CaO.

The present invention includes batching, compound partly moistens mill, mixes, makes ball and roasting; After it is characterized in that the powdered iron ore and the mixing of high MgO content flux of elder generation with a part; Carried out in advance the pre-treatment of profit mill, and then with remaining powdered iron ore and wilkinite mixing, make ball, roasting; Operation steps is successively:

(1) batching: powdered iron ore is 95-97 by weight percentage %High MgO content flux is 2-4 %;Wilkinite is 0.5-2 %

Said high MgO content flux is that MgO content is 60%-80%;

(2) powdered iron ore and high MgO content flux profit mill pre-treatment:

The powdered iron ore of getting a part in the above-mentioned powdered iron ore and be 40%-97% is dried in rotary drum dryer; Make the water ratio of powdered iron ore be not more than 6.5%; After mixing with high MgO content flux; Compound sent into moisten the mill pre-treatment in the damp mill, be referred to as profit mill pre-treatment mixture, powdered iron ore brings up to 80%-90% less than the ratio of 0.074mm in the profit mill pre-treatment mixture;

(3) mixing is made ball: will moisten powdered iron ore that mill pre-treatment mixture and remaining profit grind and wilkinite again through the mixer mixing; Adding then keeps the skin wet in the balling disc makes ball and produces pelletizing; Obtaining water ratio is 9.0%-9.6%; Pelletizing by weight percentage, pelletizing particle diameter are 9mm-15mm;

(4) roasting: above-mentioned pelletizing is carried out cloth, roasting on chain grate-rotary kiln, obtain finished pellet; Wherein the thermal regulation of chain-grate machine is: blast temperature is 150-220 ℃, and the exhausting temperature is 220-260 ℃, and the chain-grate machine preheating temperature is 900-1000 ℃, and the rotary kiln baking temperature is 1200-1250 ℃.

The chain-grate machine preheating temperature is different, and the preheating pellet strength is also different, and in 900-1000 ℃ of scope, the high more preheating pellet strength of chain-grate machine preheating temperature is high more.

Described high MgO content flux is the product that Jianping, Liaoning wilkinite ltd produces.

The MgO pelletizing made from the present invention, when the preheating temperature of MgO pelletizing was 900-1000 ℃, its preheating ball intensity can be greater than to 400 a N ∕ pelletizing, and the intensity of finished ball can be greater than reaching 2500 a N ∕ pelletizing.

Beneficial effect of the present invention: (1) through in powdered iron ore with addition of MgO content be the flux about 60%-80%; Can under the lower situation of flux proportioning, produce the MgO pellet, avoid vast scale to cause pellet iron grade to descend and the shortcoming that changes has also taken place pellet CaO with addition of flux such as rhombspar.(2) adopt the profit grinding process that MgO flux and powdered iron ore are moistened mill in advance; Can reduce the pelletizing preheating temperature; The intensity that pelletizing gets into rotary kiln can also be improved simultaneously, the technical barrier that preheating temperature is high, the preheating pellet strength is low that runs into when producing the MgO pellet can be solved to a certain extent; (3) after the pre-treatment of powdered iron ore profit mill, bentonitic proportioning also can reduce, and helps improving pellet iron grade.

Embodiment

Further specify embodiment of the present invention through embodiment below, but embodiment of the present invention is not limited to following examples.

High MgO content flux among following 3 embodiment all is products that Jianping, Liaoning wilkinite ltd produces.

Embodiment 1

Present embodiment moistens the mill pre-treatment to the powdered iron ore of about 40% in high MgO content flux and the batching.

(1) batching:

Carrying out weigh batching by following weight percent is:

Powdered iron ore 96.5 %;

High MgO content flux 2 %

Wilkinite 1.5 %,

Wherein powdered iron ore is Dai County's powdered iron ore, and granularity is 75% less than the content of 0.074mm, and the water ratio of powdered iron ore is 8.5%; The MgO content of high MgO content flux is 78%.

(2) powdered iron ore and high MgO content flux profit mill pre-treatment:

Get the part promptly 40% in the powdered iron ore, after the oven dry, the water ratio that makes powdered iron ore is 6.4% in rotary drum dryer, moistens the mill pre-treatment in the damp mill with sending into after high MgO content flux mixes then, makes powdered iron ore bring up to 81% less than the ratio of 0.074mm;

(3) mixing is made ball

With above-mentioned mixture through profit pretreated powdered iron ore of mill and high MgO content flux; With the powdered iron ore of remaining 56.5% not profit mill and wilkinite again through the mixer mixing; Adding then keeps the skin wet in the balling disc makes ball and produces pelletizing; Obtain the pelletizing that water ratio is 9.1% (by weight percentage), the pelletizing particle diameter is 9mm-15mm;

(4) roasting

On chain grate-rotary kiln, carry out cloth, roasting, obtain finished pellet; Wherein the thermal regulation of chain-grate machine is: blast temperature is 190-210 ℃, and the exhausting temperature is 210-240 ℃, and the chain-grate machine preheating temperature is 950-1000 ℃, and the rotary kiln baking temperature is 1210-1260 ℃.

When the chain-grate machine preheating temperature was 960 ℃, the preheating pellet strength was a 423N ∕ pelletizing;

When the chain-grate machine preheating temperature was 980 ℃, the preheating pellet strength can reach a 495N ∕ pelletizing,

When the chain-grate machine preheating temperature was 1000 ℃, the preheating pellet strength can reach 557 a ∕ pelletizing,

When the rotary kiln baking temperature was 1210 ℃, finished ball intensity was a 2542N ∕ pelletizing;

When the rotary kiln baking temperature was 1240 ℃, finished ball intensity was a 2835N ∕ pelletizing.

Wherein finished ball nodulizing TFe is 63.1%, and MgO content is 2.05%, SiO ₂Be 5.86%, CaO is 0.64%.

Embodiment 2

Present embodiment moistens the mill pre-treatment to the powdered iron ore of about 50% in high MgO content flux and the batching.

The concrete steps of present embodiment are following:

(1) batching:

Carry out weigh batching by following weight percent:

Powdered iron ore 96.5%;

High MgO content flux 2%;

Wilkinite 1.5%,

Wherein powdered iron ore is Dai County's powdered iron ore, and granularity is 75% less than the content of 0.074mm, and the water ratio of powdered iron ore is 8.5%; The MgO content of high MgO content flux is 78%.

(2) powdered iron ore and high MgO content flux profit mill pre-treatment:

After getting a part in the above-mentioned powdered iron ore promptly 48% powdered iron ore being dried in rotary drum dryer; The water ratio of powdered iron ore is 6.3%; Moisten the mill pre-treatment in the damp mill with sending into after high MgO content flux mixes, make powdered iron ore bring up to 80% less than the ratio of 0.074mm;

(3) mixing is made ball

With above-mentioned mixture through profit pretreated powdered iron ore of mill and high MgO content flux; With remaining 48.5% powdered iron ore and the wilkinite of profit mill again through the mixer mixing; Adding in the balling disc make up water then makes ball and produces pelletizing; Obtain the pelletizing that water ratio is 9.0% (by weight percentage), particle diameter is 9mm--15mm;

(4) roasting

On chain grate-rotary kiln, carry out cloth, roasting, obtain finished pellet; Wherein the thermal regulation of chain-grate machine is: blast temperature is 190-210 ℃, and the exhausting temperature is 210-240 ℃, and the chain-grate machine preheating temperature is 950-1000 ℃, and the rotary kiln baking temperature is 1210-1260 ℃.

When the chain-grate machine preheating temperature was 960 ℃, the preheating pellet strength was a 478N ∕ pelletizing;

When the chain-grate machine preheating temperature was 980 ℃, the preheating pellet strength can reach a 512N ∕ pelletizing,

When the chain-grate machine preheating temperature was 1000 ℃, the preheating pellet strength can reach 588 a ∕ pelletizing,

When the rotary kiln baking temperature was 1210 ℃, finished ball intensity was a 2587N ∕ pelletizing;

When the rotary kiln baking temperature was 1240 ℃, finished ball intensity was a 2912N ∕ pelletizing.

Wherein finished ball nodulizing TFe is 63.1%, and MgO content is 2.05%, SiO ₂Be 5.86%, CaO is 0.64%.

Embodiment 3

Present embodiment moistens the mill pre-treatment to about 50% powdered iron ore and high MgO content flux, but strengthened high MgO content flux with addition of amount, become 2.5% by 2% of embodiment 1 and embodiment 2.

The concrete steps of present embodiment are following:

(1) batching:

Powdered iron ore, high MgO content flux and wilkinite carry out weigh batching by following weight percent, and concrete proportioning is:

Powdered iron ore 96%;

High MgO content flux 2.5%;

Wilkinite 1.5%,

Wherein powdered iron ore is Dai County's powdered iron ore, and granularity is 75% less than the content of 0.074mm, and the water ratio of powdered iron ore is 8.5%; The MgO content of high MgO content flux is 78%.

(2) powdered iron ore and high MgO content flux profit mill pre-treatment:

After getting a part promptly 48% powdered iron ore being dried in rotary drum dryer, the water ratio of powdered iron ore is 6.4%, moistens the mill pre-treatment in the damp mill with sending into after high MgO content flux mixes, and makes powdered iron ore bring up to 82% less than the ratio of 0.074mm;

(3) mixing is made ball

With above-mentioned mixture through profit pretreated powdered iron ore of mill and high MgO content flux; With remaining 48% powdered iron ore and the wilkinite of profit mill again through the mixer mixing; Adding in the balling disc make up water then makes ball and produces pelletizing; Obtain the pelletizing that water ratio is 9.1% (by weight percentage), median size is 9mm-15mm;

(4) roasting

On chain grate-rotary kiln, carry out cloth, roasting, obtain finished pellet; Wherein the thermal regulation of chain-grate machine is: blast temperature is 190-210 ℃, and the exhausting temperature is 210-240 ℃, and the chain-grate machine preheating temperature is 950-1000 ℃, and the rotary kiln baking temperature is 1210-1260 ℃.

When the chain-grate machine preheating temperature was 960 ℃, the preheating pellet strength was a 405N ∕ pelletizing;

When the chain-grate machine preheating temperature was 980 ℃, the preheating pellet strength can reach a 498N ∕ pelletizing,

When the chain-grate machine preheating temperature was 1000 ℃, the preheating pellet strength can reach 524 a ∕ pelletizing,

When the rotary kiln baking temperature was 1210 ℃, finished ball intensity was a 2502N ∕ pelletizing;

When the rotary kiln baking temperature was 1240 ℃, finished ball intensity was a 2875N ∕ pelletizing.

Wherein finished ball nodulizing TFe is 62.7%, and MgO content is 2. 5%, SiO ₂Be 5.83%, CaO is 0.73%.

Above embodiment and common process are produced the method contrast of MgO pellet, and when with addition of ground dolomite, and breeze is during without the pre-treatment of profit mill; When preheating temperature below 1000 ℃ the time, the preheating pellet strength is lower than 400 a N ∕ pelletizing, when preheating temperature surpasses 1000 ℃ when reaching 1030 ℃; The preheating pellet strength just surpasses 400 a N ∕ pelletizing; Reach 417 a N ∕ pelletizing, and pellet iron grade is low, CaO content is also high.

And for embodiments of the invention; For implementing 1; After the powdered iron ore about 40% and high MgO content flux moisten the mill pre-treatment, under the close basically situation of pellet MgO content (about 2.1%), when preheating temperature is merely 960 ℃; The preheating pellet strength just surpasses 400 a N ∕ pelletizing, reaches 423 a N ∕ pelletizing; And because of powdered iron ore through the pre-treatment of profit mill, bentonitic proportioning is reduced to 1.5% by 2%, MgO flux is also lower with addition of amount simultaneously, so pellet iron grade is than the routine height of benchmark.

For implementing 2, when the profit of further raising powdered iron ore was ground ratio to 50% left and right sides, under the close basically situation of pellet MgO content (about 2.1%), when preheating temperature was merely 960 ℃, the further promoting or transferring of preheating pellet strength was to 478 a N ∕ pelletizing.

For implementing 3, keeping the profit mill ratio of powdered iron ore is about 50%, and further improves about pellet MgO content to 2.5%, and when preheating temperature is 960 ℃, the preheating pellet strength also can surpass 400 N ∕ more than the pelletizing, reaches 405 a N ∕ pelletizing.

Therefore, the MgO pellet that adopts method provided by the invention to produce has that preheating temperature is low, preheating ball intensity high, and pellet iron of high grade, do not influence characteristics such as pellet CaO content.

Claims (1)

1. the method for manufacture of an iron ore MgO pellet; Comprise that batching, compound partly moisten mill, mix, make ball and roasting; After it is characterized in that the powdered iron ore and the mixing of high MgO content flux of elder generation with a part; Carried out in advance the pre-treatment of profit mill, and then with remaining powdered iron ore and wilkinite mixing, make ball, roasting; Operation steps is successively:

(1) batching: powdered iron ore is 95-97 by weight percentage %High MgO content flux is 2-4 %;Wilkinite is 0.5-2 %, said high MgO content flux is that MgO content is 60%-80%;

(2) powdered iron ore and high MgO content flux profit mill pre-treatment:

The powdered iron ore of getting a part in the above-mentioned powdered iron ore and be 40%-97% is dried in rotary drum dryer; Make the water ratio of powdered iron ore be not more than 6.5%; After mixing with high MgO content flux; Compound sent into moisten the mill pre-treatment in the damp mill, be referred to as profit mill pre-treatment mixture, powdered iron ore brings up to 80%-90% less than the ratio of 0.074mm in the profit mill pre-treatment mixture;

(3) mixing is made ball: will moisten powdered iron ore that mill pre-treatment mixture and remaining profit grind and wilkinite again through the mixer mixing; Adding then keeps the skin wet in the balling disc makes ball and produces pelletizing; Obtaining water ratio is 9.0%-9.6%; Pelletizing by weight percentage, pelletizing particle diameter are 9mm-15mm;

(4) roasting: above-mentioned pelletizing is carried out cloth, roasting on chain grate-rotary kiln, obtain finished pellet; Wherein the thermal regulation of chain-grate machine is: blast temperature is 150-220 ℃, and the exhausting temperature is 220-260 ℃, and the chain-grate machine preheating temperature is 900-1000 ℃, and the rotary kiln baking temperature is 1200-1250 ℃.