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Method for Harmless Treatment and Recycling of Chromium Slag and Metallurgical Waste

A technology for harmless treatment and metallurgical waste, which is applied in the removal of solid waste and the improvement of process efficiency. and other problems, to achieve the effect of improving sintering gas permeability, low carbon content, and improving metal recovery rate

Active Publication Date: 2014-10-22
CHONGQING ANGRUIYUE SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the toxic substance hexavalent chromium in chromium slag can only be effectively and thoroughly treated under high temperature and reducing atmosphere
Blast furnace is a high-temperature reducing atmosphere, and sintering is a high-temperature oxidizing atmosphere. It is uneconomical and inapplicable to deal with the toxic substance hexavalent chromium in sintering by changing the overall atmosphere of sintering.
[0013] In addition, the dedusting ash in the metallurgical iron-containing waste is metallurgical waste that can be reused (some heavy metals in the dedusting ash collected by the electrostatic precipitator of metallurgical waste exceed the standard and must be processed and utilized). The ash is directly added to the sintering mixture for recycling. However, due to the poor hydrophilicity and activity of the metallurgical dust removal ash, fine powder will be formed when the temperature rises on the sintering trolley, which makes the sintering air permeability worse. , part of the dust dust fine powder is drawn into the dust collector again by negative pressure, forming a vicious cycle of dust removal, increasing the dust removal load on the dust collector, and having many adverse effects on the sintering process
As far as blast furnace gravity dust is concerned, due to its relatively low carbon content and rather unstable, it cannot be included in the sinter fuel use plan and cannot be used, resulting in waste
[0014] Therefore, it is very difficult to make pellets by using dust removal ash from metallurgical iron-containing waste. The effect of using bentonite or humic acid as a binder is not ideal unless it is used in a large amount, but it will reduce the iron content of the raw material. This is indisputable in the metallurgical industry. reality
The reason is that metallurgical iron-containing waste is clinker after high-temperature firing, which has poor hydrophilicity and activity, is difficult to form into pellets, and has poor strength after pelletization, so it is difficult to meet the smelting requirements.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] The raw material of the ball core is 50% of chromium slag, 48% of the gravitational dedusting dust of the ironmaking blast furnace, and 2% of the binder (made by the weight ratio of 70% of industrial syrup, 20% of humic acid and 10% of ferrous oxide). The weight is 1 kg, and the core diameter is 5 mm.

[0051] The raw material of the spherical shell is 97% of sintering dust, 55% of iron grade; 3% of binder (made of 80% of industrial syrup, 10% of humic acid and 10% of ferrous oxide); Form a spherical shell with a weight of 2 kg and a diameter of 8 mm after the second ball forming; the total weight is 3 kg.

[0052] In the process of making ball cores and composite pellets above, the adhesive is put into water and heated to 50°C, then atomized and sprayed on the raw materials for mixing.

[0053] The roasting test was carried out in the test furnace; the test atmosphere was an oxidizing atmosphere; liquefied gas was used as fuel, and the green balls were roasted in the ...

Embodiment 2

[0055] The raw material of the ball core is 78.5% of chromium slag, 20% of coal powder; the binder is 1.5% (made by weight ratio of 70% of industrial syrup, 20% of humic acid and 10% of ferrous oxide), and the weight of the ball core is 1 kg; Made into spherical core (diameter 5㎜);

[0056] The raw material of the spherical shell is 98% of sintering dust, 55% of iron grade; 2% of binder, 70% of industrial syrup, 20% of humic acid and 10% of ferrous oxide; The shell, the weight of the spherical shell is 2 kg, the diameter of the secondary ball is 10 mm, and the total weight of the raw ball is 3 kg.

[0057] The roasting test was carried out in the test furnace; the test atmosphere was an oxidizing atmosphere; liquefied gas was used as fuel, and the raw balls were roasted in the furnace; the products were taken out for various tests; the total chromium in the raw material chromium slag was 5.0%; the hexavalent chromium was 1.1%; the total chromium of sintered ore is 0.3; the he...

Embodiment 3

[0059] The raw material of the ball core is 18.5% of chromium slag, 80% of gravity dust (gravity dust contains 35% of coke powder); 1.5% of binder (80% of industrial syrup, 15% of humic acid and 5% of ferrous oxide by weight The weight of the ball core is 1 kg; the ball core is made (5mm in diameter); the raw material of the spherical shell is sintered dust (98%), and the binder is 2% (80% of industrial syrup, 15% of humic acid and ferrous oxide 5% by weight); a spherical shell is formed outside the core; the weight of the spherical shell is 1 kg; the diameter of the secondary ball is 8 mm; the total weight is 2 kg; the roasting test is carried out in a self-made test furnace; the test atmosphere It is an oxidizing atmosphere; liquefied petroleum gas is used as fuel, and the green balls are roasted in the furnace; the products are taken out for various tests; the total chromium in the raw chromium slag is 5.5%; the hexavalent chromium is 1.4%; ; Hexavalent chromium is 0.0002% ...

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Abstract

The invention discloses a method for innocently treating and recycling chromium residues and a metallurgical waste material. The method comprises the following steps of: preparing balls by taking chromium residues to be treated as a raw material and taking pulverized coal, coke powder, gravitationally collected dust or iron-making washing dust as a reducing agent and an adhesive; preparing compound small balls from the adhesive and the balls by taking the dust in a metallurgical iron-containing waste material as a spherical shell raw material on a sintering production line or a pellet production line; putting the compound small balls separately or together with an agglomerate raw material or a pellet raw material into a sintering machine and sintering the mixture into agglomerate or pellet; and allowing the balls to form a reducing atmosphere in the spherical shell at a sintering or baking high temperature so as to realize the pretreatment of the chromium residues and further putting the agglomerate or the pellet into a blast furnace to treat the chromium residues completely. The conventional sintering and blast furnace treatment are adopted on the premise of not changing the overall oxidation atmosphere of sintering, the chromium residues are treated effectively and the dust in the metallurgical iron-containing waste material is utilized effectively, so that the method is economical, environmentally-friendly and easy to implement.

Description

technical field [0001] The invention belongs to the field of environmental protection treatment of metallurgical ironmaking and chromium slag. Background technique [0002] At present, there are four methods for the harmless treatment of chromium slag: chemical method, physical / chemical method, melting method and solidification / stabilization method, among which the melting method is the most thorough. The melting method is a process of detoxifying hexavalent chromium by adding additives to toxic substances at high temperature. The smelting and harmless treatment technologies of chromium slag mainly include carbon reduction method, sintering method, dry reduction method and cyclone furnace sintering method. [0003] The sinter method is the most thorough method of detoxification because there is a blast furnace method after it. At the same time, because this method is carried out incidentally in the normal production process of the existing equipment of the metallurgical en...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22B7/04C22B1/02C22B1/11B09B3/00
CPCY02P10/20
Inventor 李秉正邓勇
Owner CHONGQING ANGRUIYUE SCI & TECH
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