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A kind of method that utilizes titanium white waste acid to prepare iron oxide red and manganese carbonate

A technology of titanium white waste acid and iron oxide red, which is applied in chemical instruments and methods, iron oxide, iron oxide/iron hydroxide, etc., can solve the problems of failure to utilize waste acid, product quality that cannot meet high quality requirements, and instability Large-scale production and other issues to achieve the effect of repeated use, stable product quality, and short reaction time

Active Publication Date: 2016-06-08
FIDLER ENVIRONMENTAL & ECOLOGICAL ENG SUZHOU
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, these patents still have the following shortcomings: 1) a large amount of waste acid cannot be utilized; 2) the product quality cannot meet the high quality requirements of foreign countries, and cannot be stably produced on a large scale

Method used

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  • A kind of method that utilizes titanium white waste acid to prepare iron oxide red and manganese carbonate
  • A kind of method that utilizes titanium white waste acid to prepare iron oxide red and manganese carbonate

Examples

Experimental program
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Embodiment 1

[0030] A method for producing iron oxide red and manganese carbonate by using titanium white waste acid, comprising the following steps:

[0031] 1) Put 25kgFeSO 4 ·7H 2 O adds 43L of titanium dioxide waste acid (H 2 SO 4 concentration 20%), add 25.5 kg of pyrolusite with a manganese content of 12%, react until the pH of the solution is 1 to 1.5, and filter;

[0032] 2) adding calcium carbonate to the filtrate obtained in step 1) to adjust the pH value to 1.5-2, filtering, adding lime milk to the filter residue to neutralize and discarding;

[0033] 3) add ammonium bicarbonate to the filtrate obtained by filtering in step 2) to adjust the pH value to 2-2.5, keep the temperature at 75-95°C during the reaction, and keep it warm for 2-4 hours;

[0034] 4) Step 3) standing and aging for 12 hours, a large amount of iron-containing intermediate products precipitated, filtered;

[0035] 5) Wash the filter residue obtained in step 4) with water for 1 to 5 times, dry at 100 to 125...

Embodiment 2

[0040] 1) Put 25kgFeSO 4 .7H 2 O adds 43L of titanium dioxide waste acid (H 2 5O 4 concentration 20%), add 20 kg of pyrolusite with a manganese content of 15%, react until the pH value of the solution is 1 to 1.5, obtain ferric iron and divalent manganese, and filter;

[0041] 2) adding calcium carbonate to the filtrate obtained in step 1) to adjust the pH value to 1.5-2, filtering, and adding lime milk to the filter residue to neutralize and transport for disposal;

[0042] 3) adding ammonium carbonate to the filtrate obtained by filtering in step 2) to adjust the pH value to 2-2.5, keeping the temperature at 75-95° C. during the reaction, and keeping it warm for 2-4 hours;

[0043] 4) Step 3) standing and aging for 12 hours, a large amount of iron-containing intermediate products precipitated, filtered;

[0044] 5) Wash the filter residue obtained in step 4) with water for 1-5 times, dry at 100-125°C to obtain a powdery intermediate product, then calcinate the powdery in...

Embodiment 3

[0048] 1) Put 20kgFeSO 4 ·7H 2 O add 35L of titanium dioxide waste acid (H 2 SO 4concentration 20%), add 20.5 kg of pyrolusite with a manganese content of 12%, react until the pH value of the solution is 1 to 1.5, and filter;

[0049] 2) adding calcium carbonate to the filtrate obtained in step 1) to adjust the pH value to 1.5-2, filtering, adding lime milk to the filter residue, neutralizing and transporting for disposal;

[0050] 3) Add sodium carbonate to the filtrate obtained by filtering in step 2) to adjust the pH value to 2-2.5, keep the temperature at 75-95°C during the reaction, and keep it warm for 2-4 hours;

[0051] 4) Step 3) After standing and aging for 12 hours, a large amount of iron-containing intermediate products precipitated and filtered;

[0052] 5) Wash the filter residue obtained in step 4) with water for 1-5 times, dry at 100-125°C to obtain 13 kg of powdery intermediate product, then calcinate the powdery intermediate product at 600-800°C, wash and...

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Abstract

The invention discloses a method for preparing iron oxide red and manganese carbonate by using titanium white waste acid. The method comprises the following steps: enabling ferrous sulfate and pyrolusite powder to react with the titanium white waste acid; adding soluble carbonate to obtain a powdery middle intermediate after reaction; and reacting once, so as to obtain the iron oxide red, manganese carbonate and sulfate. The iron oxide red product prepared by the method is high in chemical grade, and good in physical property. The method is economic, and environmentally friendly; industrial by-products are fully utilized; meanwhile, the iron oxide red, the manganese carbonate and the sulfate are prepared; three products can be obtained by production once, and therefore, the method can be applied to large-scale production; the product is stable in quality, and has the advantages of being short in reaction time, high in iron recovery rate and the like; and the titanium white waste acid, the ferrous sulfate and the low-grade pyrolusite are changed into treasures, thus, repeated utilization of resources is achieved.

Description

technical field [0001] The invention relates to a comprehensive utilization method of industrial waste, in particular to a method for preparing iron oxide red and manganese carbonate by using titanium white waste acid. Background technique [0002] As an important branch of magnetic materials, ferrite magnetic materials are widely used in many fields such as wireless communication, automatic control, measuring instruments, aerospace, home appliances, and medicine. In recent years, they have achieved great development in my country. The rate of more than % is growing at a high speed. However, the grade of ferrite produced in my country is not high. One of the reasons is that the necessary raw material for the production of ferrite magnetic materials is iron oxide red (ferric oxide Fe 2 o 3 ) quality is not high, while the price of foreign high-quality iron oxide red is very expensive. Therefore, with the continuous development of my country's ferrite industry, the demand fo...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01G49/06C01G45/00B09B3/00
Inventor 朱军邓勇
Owner FIDLER ENVIRONMENTAL & ECOLOGICAL ENG SUZHOU
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