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A method for fully utilizing sodium chloride waste residue salt for resource utilization by a polymerization carbonization method

A technology of sodium chloride and resource utilization, applied in chemical instruments and methods, carbon compounds, alkali metal chlorides, etc., can solve the problems of occupation, difficult to remove organic matter, waste of recyclable resources, etc., and realize the utilization of salt resources. , the effect of promoting sustainable and coordinated development

Active Publication Date: 2020-12-22
SOUTH CHINA UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This disposal method is expensive, not only occupies a large amount of land, but also has the risk of secondary environmental damage caused by external factors such as geological disasters
[0005] At present, although most people focus on the research on the synthesis and preparation of trimethyl orthoformate, the research on its process waste salt comprehensive recovery treatment method is relatively small, and most of the technologies have the following defects: (1) organic matter is difficult to obtain. Sufficient removal; (2) The carbonized particles of organic matter are too small to be removed by simple dissolution and filtration
Therefore, many waste salts produced during the synthesis of trimethyl orthoformate have not been effectively treated, resulting in a waste of a large amount of recyclable resources.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] (1) Under the calcination temperature of 300°C, the calcination atmosphere is argon, 0.3ml of hydrochloric acid solution with a concentration of 0.8mol / L is added to 5 grams of sodium chloride waste residue salt, sealed and put into a muffle furnace for calcination After 2h, it was weighed after it dropped to room temperature;

[0039] (2) At a room temperature of 24°C, add 30 milliliters of water to the waste salt after cooling and weighing in step (1), and after stirring for 5 minutes, there is slightly insoluble waste salt in the solution; then filter and separate the solid and liquid;

[0040] (3) keep stirring, add sodium carbonate solution (concentration is 10g / L) 3ml in the solution gained in step (2), leave standstill for 6 minutes afterwards, fine precipitation can be observed in the solution, secondary filtration;

[0041] (4) add 1.5ml hydrochloric acid solution (concentration is 1mol / L) in step (3) filtered gained solution, remove remaining sodium carbonate,...

Embodiment 2

[0047] (1) Under the calcination temperature of 300°C, the calcination atmosphere is argon, 3.36ml of hydrochloric acid solution with a concentration of 0.8mol / L is added to 56 grams of sodium chloride waste residue salt, sealed and put into a muffle furnace for calcination After 2h, it was weighed after it dropped to room temperature;

[0048] (2) At a room temperature of 24°C, add 300 milliliters of water to the waste salt after cooling and weighing in step (1), and after stirring for 5 minutes, there is slightly insoluble waste salt in the solution; then filter and separate the solid and liquid;

[0049] (3) keep stirring, add sodium carbonate solution (concentration is 10g / L) 32ml in the solution gained in step (2), leave standstill for 6 minutes afterwards, fine precipitation can be observed in the solution, secondary filtration;

[0050](4) add 20ml hydrochloric acid solution (concentration is 1mol / L) in step (3) filtered gained solution, remove remaining sodium carbonat...

Embodiment 3

[0056] (1) Under the calcination temperature of 300°C, the calcination atmosphere is argon, 16.8ml of hydrochloric acid solution with a concentration of 0.8mol / L is added to 250 grams of sodium chloride waste residue salt, sealed and put into a muffle furnace for calcination After 2h, it was weighed after it dropped to room temperature;

[0057] (2) At a room temperature of 24°C, add 1.5 liters of water to the waste salt that has been cooled and weighed in step (1), and after fully stirring for 15 minutes, there is slightly insoluble waste salt in the solution; then filter to separate the solid from the liquid;

[0058] (3) keep stirring, add sodium carbonate solution (concentration is 10g / L) 160ml in the solution gained in step (2), leave standstill for 6 minutes afterwards, fine precipitation can be observed in the solution, secondary filtration;

[0059] (4) add 100ml hydrochloric acid solution (concentration is 1mol / L) in step (3) filtered gained solution, remove remaining...

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Abstract

The invention discloses a method for recycling all-utilizing sodium chloride waste residue salt by polymerization carbonization. The method comprises the following steps: (1) adding a polymerization catalyst to the sodium chloride waste residue salt, calcining the reacted waste salt and then cooling the material to room temperature, adding the water to a solid obtained after cooling, stirring thematerial to dissolve the material completely, then filtering the material, and drying and recovering the filtered carbon material; (2) taking the filtrate obtained by the step (1) after filtration, adding sodium carbonate while stirring, and after addition, performing standing and filtering the material, and drying and recovering the filtered filter residue; and (3) adding hydrochloric acid to a solution obtained by the step (2), performing standing and heating the material, performing separating and heating on the precipitated crystals, and drying the material. The method has the advantages of simple process, low cost and thorough purification, and can obtain three products of a carbon material, calcium carbonate and sodium chloride, and the utilization of total waste salt is realized.

Description

technical field [0001] The invention belongs to the field of purification and recovery of industrial waste residue salt, and in particular relates to a method for fully utilizing sodium chloride waste residue salt for resource utilization through a polymerization carbonization method. [0002] technical background [0003] Trimethyl orthoformate (also known as trimethoxymethane, referred to as methyl orthoformate, is an important intermediate in organic synthesis, used for vitamin B in the pharmaceutical industry 1 , vitamin A, sulfadiazine, pipemidic acid and antibacterial agents, among which vitamin B 1 The largest proportion of methyl orthoformate is consumed. Also used in the dye and fragrance industries. Trimethyl orthoformate is obtained by reacting chloroform and methanol in the presence of caustic soda (or chloroform and sodium methoxide). Add 280 kg of chloroform to the dropping device, control the temperature at 68-73° C., and add chloroform dropwise while stirri...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01B32/05C01B32/205C01D3/14C01D3/04C01F11/18C01B32/312
CPCC01D3/04C01D3/14C01F11/18C01B32/05C01B32/205C01B32/312
Inventor 周含峰刘学明林璋宿新泰邱郴陈云萱
Owner SOUTH CHINA UNIV OF TECH
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