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A collector for sorting zinc oxide ore and its preparation method

A zinc oxide ore and collector technology, applied in flotation, solid separation, etc., can solve the problems of complex conventional process, failure to achieve sulfidation, long process, etc., and achieve simple mineral processing process, high grade and recovery rate, Good effect of selection index

Active Publication Date: 2017-09-29
陕西省地质矿产实验研究所有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When sulfiding zinc oxide ore, it is necessary to reasonably control Na 2 If the amount of S is too large, it will cause inhibition, if it is too small, it will not achieve the effect of vulcanization; adding Na 2 S generally needs to be added in sections, resulting in a longer process
[0005] 2) The conventional process is more complicated
The existing zinc selection process is segmental flotation in which sulfide ore is selected first and oxide ore is selected, that is, zinc sulfide-zinc oxide, and the process is relatively long

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] The collector of the present embodiment is mainly made of the following raw materials: 70g of isobutanol, 80g of caustic soda, 85g of carbon disulfide, 100g of 1-aminoheptane, 70g of glycerol, 80g of salicylic hydroxamic acid, 20g of sodium carbonate, and 60g of sodium sulfide , mass concentration is 5% water glass solution 100g, kerosene 25g.

[0024] The preparation method of the collector of the present embodiment may further comprise the steps:

[0025] Step 1. Mix isobutanol and carbon disulfide evenly, add caustic soda to the uniformly mixed mixture under stirring conditions at a temperature of 13°C, then heat up to 34°C, and then keep stirring for 20 minutes to obtain a yellow material;

[0026] Step 2: Mix 1-aminoheptane, glycerol, kerosene and the yellow material described in step 1 and heat it to 75°C under stirring conditions, then feed chlorine gas into the heated mixture until the mass of the mixture increases To 1.37 times of the total mass of the yellow ...

Embodiment 2

[0042] The collector of the present embodiment is mainly made of the following raw materials: 80g of isobutanol, 70g of caustic soda, 95g of carbon disulfide, 150g of 1-aminoheptane, 60g of glycerol, 100g of salicylic hydroxamic acid, 15g of sodium carbonate, and 50g of sodium sulfide , mass concentration is 10% water glass solution 120g, kerosene 30g.

[0043] The preparation method of the collector of the present embodiment may further comprise the steps:

[0044] Step 1. Mix isobutanol and carbon disulfide evenly, add caustic soda to the uniformly mixed mixture under stirring condition at a temperature of 10°C, then heat up to 30°C and keep stirring for 30 minutes to obtain a yellow material;

[0045] Step 2. Mix 1-aminoheptane, glycerol, kerosene and the yellow material described in step 1 and heat it to 73°C under stirring conditions, then feed chlorine gas into the heated mixture until the mass of the mixture increases To 1.38 times of the total mass of the yellow materia...

Embodiment 3

[0062] The collector of the present embodiment is mainly made of the following raw materials: 60g of isobutanol, 100g of caustic soda, 70g of carbon disulfide, 50g of 1-aminoheptane, 80g of glycerol, 70g of salicylic hydroxamic acid, 25g of sodium carbonate, and sodium sulfide 70g, mass concentration is 80g of water glass solution 80g, kerosene 20g.

[0063] The preparation method of the collector of the present embodiment may further comprise the steps:

[0064] Step 1. Mix isobutanol and carbon disulfide uniformly, add caustic soda to the uniformly mixed mixture under stirring conditions at a temperature of 15°C, then heat up to 35°C, heat and stir for 15 minutes to obtain a yellow material;

[0065] Step 2. Mix 1-aminoheptane, glycerol, kerosene and the yellow material described in step 1 and heat it to 76°C under stirring conditions, then feed chlorine into the heated mixture until the mass of the mixture increases To 1.36 times of the yellow material gross mass described...

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Abstract

The invention discloses a collector for sorting zinc oxide ore, which is mainly made of the following raw materials in parts by weight: 50-100 parts of isobutanol, 50-120 parts of caustic soda, 60-120 parts of carbon disulfide, 1-amino 10-200 parts of heptane, 50-100 parts of glycerin, 50-120 parts of salicylic hydroxamic acid, 10-30 parts of sodium carbonate, 20-100 parts of sodium sulfide, 50-150 parts of water glass solution, 10-40 parts of kerosene . In addition, the invention also discloses a preparation method of the collector. The collector of the present invention has collecting performance for both zinc sulfide and zinc oxide, and can simultaneously select zinc sulfide and zinc oxide without first selecting zinc sulfide and then zinc oxide. The technological process is simple and the cost is low. The grade of the zinc concentrate obtained by flotation is greater than 35%, and the grade and recovery rate are obviously higher than those of conventional agents.

Description

technical field [0001] The invention belongs to the technical field of flotation of zinc oxide ore, and in particular relates to a collector for sorting zinc oxide ore and a preparation method thereof. Background technique [0002] Zinc-containing ores can be divided into zinc sulfide ores (oxidation rate less than 10%), mixed zinc ores (oxidation rate 10% to 30%), and zinc oxide ores (oxidation rate above 30%) according to the degree of oxidation. There are many kinds of zinc oxide minerals, and the most common zinc oxide ore with industrial value is smithsonite (ZnCO 3 ) and hemimorphite (Zn 4 [Si 2 o 7 ](OH) 2 h 2 O). [0003] At present, the main method of recovering zinc oxide ore is to collect it with primary amine collectors after sulfidation. The main problems in the conventional pharmaceutical system are: [0004] 1)Na 2 S dosage control and adding method. When sulfiding zinc oxide ore, it is necessary to reasonably control Na 2 If the amount of S is too ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B03D1/018B03D101/02
Inventor 缑明亮陈文科武俊杰闫晔轶孙阳孙亚峰
Owner 陕西省地质矿产实验研究所有限公司
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