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Direct reduction process of iron ore powder with carbon porous block

A technology of internal carbon and iron ore powder, which is applied in the field of metallurgy, can solve the problems of poor internal heat transfer effect of the material layer, poor direct reduction effect, and low overall reduction efficiency, and achieves easy promotion, improved reduction efficiency, and method simple effect

Active Publication Date: 2016-05-11
临泉县非凡装饰工程有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

During the direct reduction process of the pellets (such as direct reduction in fixed bed furnaces such as rotary hearth furnaces, car bottom furnaces, and drawer kilns), the thickness of the material layer arranged on the hearth bed is not allowed to be too thick, generally 2 to 3 layer, the thickness is 20mm ~ 30mm, because the material layer is too thick, the heat transfer effect in the material layer is too poor, and the internal temperature gradient is too large, resulting in poor direct reduction effect
The thermal conductivity of iron ore powder with carbon pellets detected by experiments is 0.5-0.8W / (m·K), which is relatively small compared with carbon-free pellets, which results in a , the metallization rate of the direct reduction process is low, and the overall reduction efficiency is relatively low

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049] Mix vanadium-titanium iron concentrate, coal powder, sodium carboxymethylcellulose and water evenly, wherein the mass ratio of vanadium-titanium iron concentrate, coal powder, sodium carboxymethylcellulose and water is 100:28:2:16 , wherein the vanadium-titanium iron concentrate is based on the mass of TFe in it. The TFe content in the vanadium-titanium iron concentrate is 52%, and 74% passes through a 200-mesh sieve, and 60% of the pulverized coal passes through a 100-mesh sieve. Press the mixture in a brick press into a cuboid carbon porous block with a size of 200mm×50mm×150mm. The number of holes in the carbon porous block is 8, and the diameter of the holes is 30mm. Dry naturally for 48 hours. Put the dried inner carbon porous block into the rotary hearth furnace, the thickness of the material layer is 150mm, and the reduction temperature is 1300°C, CO and CO in the reducing atmosphere 2 Metallized blocks were obtained by reduction in a rotary hearth furnace with ...

Embodiment 2

[0051] Mix limonite concentrate, coal powder, polyvinyl alcohol and water evenly, wherein the mass ratio of limonite, coal powder, polyvinyl alcohol and water is 100:26:1.0:15, wherein the limonite concentrate is based on the mass of TFe in it count. The TFe content in the limonite concentrate is 51.5%, and 62% passes through a 200-mesh sieve, and 70% of the pulverized coal passes through a 100-mesh sieve. The mixture is pressed into a square block in a brick press. The lower bottom is 280mm×80mm, the upper bottom is 220mm×80mm, and the height is 280mm. The number of holes in the carbon porous block is 26, and the diameter of the holes is 20mm, dry naturally for 24 hours. Put the dried internal carbon porous block into the car bottom furnace, the thickness of the material layer is 280mm, and the reduction temperature is 1350°C, CO and CO in the reducing atmosphere 2 Metallized blocks were obtained by reduction in a car bottom furnace with a volume ratio of 3:5 for 40 minutes...

Embodiment 3

[0053] Mix magnetite concentrate, coal powder, molasses and water evenly, wherein the mass ratio of magnetite, coal powder, molasses and water is 100:30:2.0:16, wherein the mass of magnetite concentrate is calculated by the mass of TFe therein. The TFe content in the magnetite concentrate is 62%, and 80% passes through a 200-mesh sieve, and 65% of the pulverized coal passes through a 100-mesh sieve. The mixture is pressed into a square block in a brick press, the lower bottom is 250mm×70mm, the upper bottom is 200mm×70mm, and the height is 250mm. The number of holes in the carbon porous block is 24, and the diameter of the holes is 18mm, dry naturally for 24 hours. Put the dried inner carbon porous block into the rotary hearth furnace, the thickness of the material layer is 250mm, and the reduction temperature is 1250°C, CO and CO in the reducing atmosphere 2 Metallized blocks were obtained by reduction in a rotary hearth furnace with a volume ratio of 1:1 for 50 minutes, and...

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Abstract

The invention belongs to the field of metallurgy and in particular relates to a direct reduction process of a carbon-burdened porous block of iron ore powder, which can improve the heat transfer efficiency so as to solve the technical problems. According to the technical scheme, the direct reduction process comprises the following steps: uniformly mixing iron ore concentrate, a carbonaceous reducing agent, a bonder and water in proportion, pressing into a block, forming holes with the diameters of 10mm to 30mm in the obtained block, drying, and reducing in a direct reduction furnace, wherein the total hole volume is 10%-20% that of the block. According to the process, the carbon-burdened porous block can be arranged on the bottom of a kiln such as a rotary hearth furnace, a car bottom furnace, a tunnel kiln or the like for reduction, the thickness of a material layer can reach 80mm to 300mm, equivalently carbon-burdened pellets with the heights of 20mm to 30mm are stacked for 5-10 layers, and the reduction production efficiency can be greatly improved; moreover, the process is simple and easy to popularize, and a small quantity of equipment is required.

Description

technical field [0001] The invention belongs to the field of metallurgy, and in particular relates to a direct reduction process of iron ore powder with carbon porous block. Background technique [0002] Iron ore powder with carbon pellets is the main iron-containing raw material for non-blast furnace ironmaking. Its preparation is to transform the powdery mixture into physical properties, chemical composition and mechanical properties that can meet the next step of direct reduction smelting, that is, to prepare metals. The process required for pelletizing ore. [0003] As the main iron-containing raw material for non-blast furnace ironmaking, there are many studies on iron ore powder with carbon pellets in the prior art. The shapes of pellets mainly include spherical, flat spherical, oval, short pillow and long. There are many kinds such as pillow shape, and its three-dimensional size is basically 15mm to 45mm. During the direct reduction process of the pellets (such as d...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21B13/00C22B1/245
Inventor 马兰杨绍利夏敏代钉
Owner 临泉县非凡装饰工程有限公司
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