Method of recycling nickel, cobalt and iron from low-grade laterite-nickel ore

A laterite nickel ore, low-grade technology, applied in the field of metallurgy, can solve the problems of long process cycle, long leaching time, environmental pollution, etc., and achieve the effect of simple operation and maintenance, low investment cost and operating cost

Inactive Publication Date: 2015-08-12
JINCHUAN GROUP LIMITED
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

For example, the invention patent with the publication number CN101273146A proposes a two-step normal-pressure leaching method for simultaneously extracting limonite and saprolite or leaching limonite and then saprolite ore. This method has the advantage of not using an autoclave. However, in the process described in the application, it is proposed that when the leaching solution is treated to remove Fe and/or Al, it is necessary to add a neutralizing agent to neutralize the residual acid in the leaching solution, so that most of the iron is in the form of ferric hydroxide Deposition, which will cause loss of valuable elements such as nickel and cobalt and difficulty in slurry filtration
Another example is the patent of invention whose publication number is CN101541985A, which proposes a method for leaching a mixture of limonite and saprolite at normal pressure, but its iron precipitation product is jarosite, which contains sulfate radicals, so It will increase the acid consumption of the leaching process; and jarosite is a thermodynamically unstable compound, which will release sulfuric acid during accumulation and storage, thereby causing environmental pollution
Another example is the invention patent of CN101006190A with the publication number, which proposes a method for treating the mixture of limonite and saprolite ore with concentrated acid and then leaching nickel and cobalt with water. The iron deposit produced by this method is except jarosite. Ferric oxide or hydroxide, but the leaching time of this application needs 12-48h, and the leaching time is longer, resulting in a longer process cycle and increased production costs
[0018] In short, in the above-mentioned invention patents of lateritic nickel ore wet smelting

Method used

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  • Method of recycling nickel, cobalt and iron from low-grade laterite-nickel ore
  • Method of recycling nickel, cobalt and iron from low-grade laterite-nickel ore
  • Method of recycling nickel, cobalt and iron from low-grade laterite-nickel ore

Examples

Experimental program
Comparison scheme
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Example Embodiment

[0042] Example 1

[0043] Take 500Kg (dry basis) and grind to 80 mesh 2 # High silica magnesia ore is added with 500Kg of water to make high silica magnesia slurry, and 500Kg of concentrated sulfuric acid (98%) is prepared. Strictly control the flow rate with a mortar pump and a concentrated sulfuric acid pump. The high-silica-magnesia slurry and concentrated sulfuric acid are simultaneously fed into the feed port of the double screw pusher reactor. After the rapid mixing, the slurry and concentrated sulfuric acid are forced to flow into the double screw pusher reactor for rapid reaction. After being pushed out of the double screw pusher reactor. The entire reaction took 10 minutes.

[0044] After cooling, the reaction material containing the crisp honeycomb solid paste is simply broken and then poured into a water immersion tank, 1500Kg of water is added, and stirred for about 30 minutes. Pump the water-soluble slurry into a plate and frame filter press for solid-liquid separati...

Example Embodiment

[0055] Example 2

[0056] Take 500Kg (dry basis) and grind to 80 mesh 5 # High silica magnesia ore is added with 500Kg of water to make high silica magnesia slurry, and 500Kg of concentrated sulfuric acid (98%) is prepared. Strictly control the flow rate with a mortar pump and a concentrated sulfuric acid pump. The high-silica-magnesia slurry and concentrated sulfuric acid are simultaneously fed into the feed port of the double screw pusher reactor. After the rapid mixing, the slurry and concentrated sulfuric acid are forced to flow into the double screw pusher reactor for rapid reaction. After being pushed out of the double screw pusher reactor. The entire reaction took 10 minutes.

[0057] After cooling, the reaction material of the crisp honeycomb solid paste is simply broken and then poured into a water immersion tank, 1500Kg of water is added, and stirred for about 30 minutes. Pump the water-dissolved slurry into a plate and frame filter press for solid-liquid separation and...

Example Embodiment

[0069] Example 3

[0070] The normal pressure acid leaching stage of this example is the same as that of Example 1. In the pressure leaching stage, 3 Xinka low magnesia mine replaced 6 # Low silicon magnesia mine in Indonesia.

[0071] Take 4000g (dry) 6 # Low-silica magnesia, add 8000ml washing liquid (E1) to prepare limonite slurry, then transfer it into PARR4557 autoclave (17L), then add 3000ml atmospheric acid leaching filtrate (B1) to autoclave. After the autoclave is sealed, the temperature is controlled to be heated, the pressure is not higher than 3.0Mpa, and the temperature rises to 220°C and the heating is continued for 50 minutes, then the heating is stopped and the temperature is cooled down. After the reaction, the final pH value reaches about 1. After cooling to 80°C, the reaction slurry was removed from the autoclave for solid-liquid separation and the filter residue was washed to obtain 3440g (dry) pressure leaching residue (C3), 9430ml pressure leaching solution ...

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Abstract

A method of recycling nickel, cobalt and iron from low-grade laterite-nickel ore includes following steps: (1) performing washing classification to obtain high-silicon and -magnesium ore and low-silicon and -magnesium and high-iron ore; (2) adding enough concentrated sulfuric acid to the high-silicon and -magnesium ore slurry, and performing a reaction at 160-280 DEG C; (3) performing solid-liquid separation to obtain a normal-pressure leached residue and a normal-pressure leached liquid; (4) adding the normal-pressure leached liquid and the low-silicon and -magnesium and high-iron ore slurry according to proportion and performing pressurized leaching to the mixture at 195-240 DEG C; (5) purifying a pressurized-leached filtrate; (6) recycling nickel and/or cobalt through precipitation of sulfides or hydroxides or other recycling methods; and (7) washing the normal-pressure leached residue with a 10% sodium carbonate solution and drying the normal-pressure leached residue to obtain an iron concentrate powder product. The method is wide in adaption range of the laterite, is high in leaching rate of the nickel and the cobalt, is small in normal-pressure leaching device, is short in time and is high in efficiency. The normal-pressure leaching device is a middle-low pressure device, thereby avoiding defects that a high-pressure kettle is high in cost and is liable to scale. The method is quite low in sulfuric acid consumption. The main component, iron, in the ore can be recycled economically and effectively. The method is less in amount of waste residue and can effectively utilize the waste residue.

Description

technical field [0001] The invention belongs to the field of metallurgy and is a wet leaching process, in particular to a method for recovering nickel, cobalt and iron from low-grade laterite nickel ore. Background technique [0002] Laterite ore is a nickel oxide ore formed by nickel-bearing peridotite after large-scale long-term weathering and leaching metamorphism in tropical or subtropical regions. Due to differences in geographical location, climatic conditions and weathering degrees, the types of laterite ore around the world are not completely the same . [0003] The weathering process generally produces layered deposits in which complete or most complete weathering is present near the surface, gradually becoming less weathered with increasing depth, and finally terminating at some deeper depth as unweathered rock. [0004] Highly regolithed layers typically have most of the nickel they contain finely distributed in finely divided goethite grains. This layer is com...

Claims

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Application Information

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IPC IPC(8): C22B3/08C22B23/00C21B15/00
CPCY02P10/20
Inventor 刘玉强杨志强袁红杜昊李正禄朱纪念王建华张飞姚菲王少华
Owner JINCHUAN GROUP LIMITED
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