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Combined direct reduction process of blast furnace gas ash and refractory low-grade iron ore in tunnel kiln

A blast furnace gas ash and iron ore technology, applied in the field of combined direct reduction process of blast furnace gas ash and refractory low-grade iron ore tunnel kiln, can solve high metal recovery rate, low utilization efficiency of blast furnace gas ash carbon, separation In order to improve the concentration of the atmosphere, shorten the reduction time and increase the contact area

Active Publication Date: 2016-04-13
GANSU JIU STEEL GRP HONGXING IRON & STEEL CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, this kind of dust has not been effectively treated for a long time, and it has piled up like a mountain near many steel mills. Carbon and other valuable resources
[0005] In order to make reasonable use of blast furnace gas mortar, domestic iron and steel enterprises have done a lot of work in the utilization of sludge, dust and other wastes in the past ten years, changing the original practice of using dust and sludge as sintering raw materials. There are: steelmaking dust is used to press into cold solidified pellets and add to steelmaking for utilization. Although this method makes good use of iron oxides and calcium oxide in steelmaking dust, it is difficult to The reduction amount of iron oxide is limited, so it can only be added in a small amount during smelting. At the same time, the cold solidified pellets added in steelmaking are prone to pulverization; When recycling carbon-containing resources, there is a problem of ring formation in the rotary kiln; when the blast furnace gas ash is removed by a rotary hearth furnace to remove Zn and Pb and utilize the carbon and iron oxides, it is generally achieved by adding a certain amount of iron oxide scale. Make carbon-containing pellets and make them reduce at high temperature. Although this method can dispose of iron-containing dust in large quantities, two kinds of high-purity secondary dust rich in zinc and lead and metallized pellets for blast furnaces can be obtained. products, but the main problem is that the carbon utilization efficiency in blast furnace gas ash is not high, the raw materials need to be roasted after pelletizing, and the metallization rate of the reduced products is not high
[0006] (2) Current status of refractory low-grade iron ore processing
Siderite is one of the low-grade complex refractory minerals with relatively abundant resources. Its theoretical iron grade is only 48.2%, and it often coexists with calcium, magnesium and manganese in the same quality. %, plus the poor sintering performance of siderite concentrate, therefore, it is difficult for iron and steel companies to accept siderite concentrate
Limonite is also one of the complex refractory minerals. Limonite is rich in crystal water, easy to muddy, and the specific magnetic susceptibility coefficient is very low. Usually, the grade of iron concentrate recovered by physical beneficiation is lower than 60%, and it is difficult to obtain High metal recovery rate
③ The beneficiation process of mixed fine-grained low-grade iron ore is complex and the separation efficiency is poor
[0008] The content of iron oxides in refractory low-grade iron ores is low, resulting in a low concentration of carbon oxides in the iron ore reduction process. Grinding magnetic separation, reverse flotation, magnetization roasting, direct reduction and other processes all have problems such as low metal recovery rate, low iron grade of products produced, long reduction time and high production cost, resulting in some iron A large amount of fine-grained low-grade iron ore stripped out during the mining process has been piled up for unutilization, and there are still a large amount of fine-grained low-grade iron ore that has not been developed yet.
[0009] From the above treatment methods of blast furnace gas ash and refractory low-grade iron ore, it can be seen that the single treatment of blast furnace gas ash and refractory low-grade iron ore cannot achieve satisfactory treatment effect

Method used

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  • Combined direct reduction process of blast furnace gas ash and refractory low-grade iron ore in tunnel kiln

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0055] The process of Example 1 includes the following steps:

[0056] (1) Mix 0-3mm granular iron ore and blast furnace gas ash at a ratio of 100:185 to obtain fine-grained materials; combine 1-5mm granular iron ore with 1-5mm reduced coal Mix ingredients at a ratio of 100:38 to obtain coarse-grained materials;

[0057] (2) Lay 5mm of reduced coal, 90mm of fine-grained materials, 50mm of coarse-grained materials, and 10mm of reduced coal (such as figure 1 Shown);

[0058] (3) Put the material along with the kiln car into the tunnel kiln for high temperature reduction, the reduction temperature is 1100℃, and the reduction time is 90min.

[0059] After measurement, the iron grade of the metallized iron powder obtained in Example 1 is 86.1%, and the metallization rate is 90.5%.

Embodiment 2

[0061] The process of Example 2 includes the following steps:

[0062] (1) Mix 0-3mm granular iron ore and blast furnace gas ash at a ratio of 100:210 to obtain fine-grained materials; combine 1-5mm granular iron ore with 1-5mm granular reduced coal Mix ingredients at a ratio of 100:35 to obtain coarse-grained materials;

[0063] (2) Lay 10mm of reduced coal, 80mm of fine-grained materials, 20mm of coarse-grained materials, and 5mm of reduced coal (such as figure 1 Shown);

[0064] (3) Put the material with the kiln car into the tunnel kiln for high temperature reduction, the reduction temperature is 1050℃, and the reduction time is 120min.

[0065] After measurement, the iron grade of the metallized iron powder obtained in Example 2 is 85.1%, and the metallization rate is 88.5%.

Embodiment 3

[0067] The process of Example 3 includes the following steps:

[0068] (1) Mix 0-3mm granular iron ore and blast furnace gas ash at a ratio of 100:235 to obtain fine-grained materials; combine 1-5mm granular iron ore with 1-5mm reduced coal Mix ingredients at a ratio of 100:40 to obtain coarse-grained materials;

[0069] (2) Lay 8mm thick reduced coal, 100mm fine-grained material, 35mm coarse-grained material and 8mm reduced coal (such as figure 1 Shown);

[0070] (3) Put the material into the tunnel kiln along with the kiln car for high temperature reduction, the reduction temperature is 1150℃, and the reduction time is 60min.

[0071] After measurement, the iron grade of the metallized iron powder obtained in Example 3 is 84.1%, and the metallization rate is 92.5%.

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Abstract

The invention provides a combined direct reduction technology of blast furnace gas ash and refractory low-grade iron ore in a tunnel kiln. The combined direct reduction technology mainly comprises the following processing steps: (1) burdening and mixing the iron ore with grain sizes of 0-3mm and the blast furnace gas ash so as to obtain fine-graded materials; grading the iron ore with grain sizes of above 1mm according to different grain size ranges, burdening and mixing the iron ore and reduced coal in the same grain size range so as to obtain coarse-graded materials; (2) sequentially laying the fine-graded materials and the coarse-graded materials on a fire-resistant thermal conducting plate of a kiln car of a tunnel kiln from top to bottom; and (3) placing the materials in the tunnel kiln along with the kiln car so as to carry out high temperature reduction. The combined direct reduction technology has the advantages that the blast furnace gas ash is effectively utilized, and the utilization efficiency of carbon in the blast furnace gas ash is greatly improved; by adopting a layering distribution step-by-step oxygenation reduction method, the metallization ratio of iron ore direct reduction is increased, and the reduction time is shortened; and the iron grade of metallizing iron powder produced by the technology reaches above 84%, and the metallization ratio reaches above 88%.

Description

Technical field [0001] The invention belongs to the technical field of metallurgy and mineral engineering, and relates to a combined direct reduction process of blast furnace gas ash and a tunnel kiln of refractory low-grade iron ore. Background technique [0002] At present, the domestic development and utilization of blast furnace gas ash and difficult-to-select low-grade iron ore generally adopt a single-material processing method. The processing method and utilization status are as follows: [0003] (1) Current status of blast furnace gas ash treatment [0004] With the rapid development of the steel industry, the annual emissions of blast furnace gas ash are huge. At present, due to the long-term ineffective treatment of this kind of dust, it has piled up like mountains near many steel mills, not only occupying a large amount of land, but also polluting the environment, causing harm to human health, and wasting iron, zinc, lead, and iron. Valuable resources such as carbon. [0...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21B13/00C21B3/04
CPCY02W30/50
Inventor 王明华雷鹏飞权芳民展仁礼鲁逢霖张志刚张颂尧王欣寇明月
Owner GANSU JIU STEEL GRP HONGXING IRON & STEEL CO LTD
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