Mechano-chemical conversion and recovery method for sodium-containing compound and fluorine-containing compound in aluminum electrolysis cell waste cathode carbon blocks

A technology for aluminum electrolysis waste cathode and waste cathode carbon block, which is applied in chemical instruments and methods, inorganic chemistry, alkali metal compounds, etc., and can solve the problems of ineffective treatment of fluorine-containing wastewater, poor production stability, and secondary pollution.

Active Publication Date: 2018-12-07
XIANGTAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0025] The current wet treatment technology has at least the following main problems: first, the large amount of salty and fluorine-containing wastewater produced has not been effectively treated, causing secondary pollution; the produced H 2 、CH 4 , NH 3 The gas is not controlled and utilized, and the generated HF causes serious pollution
Second, the recovered electrolyte and carbon materials contain too many impurities and cannot be used directly
Third, the process route is cumbersome, the technology is complicated, the equipment is severely corroded, and the processing cost is too high
Fourth, due to the influence of factors such as the difference in the capacity and age of the electrolytic aluminum tank, the fluctuation of the composition, and the particle size of the powder, it is difficult to control the process
[0026] The cur

Method used

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  • Mechano-chemical conversion and recovery method for sodium-containing compound and fluorine-containing compound in aluminum electrolysis cell waste cathode carbon blocks
  • Mechano-chemical conversion and recovery method for sodium-containing compound and fluorine-containing compound in aluminum electrolysis cell waste cathode carbon blocks
  • Mechano-chemical conversion and recovery method for sodium-containing compound and fluorine-containing compound in aluminum electrolysis cell waste cathode carbon blocks

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0067] (1) Pulverize the spent cathode carbon block of the aluminum electrolytic cell in a high-speed pulverizer, sieve it with a 200-mesh sieve, and use the undersieve to carry out mechanochemical conversion and recovery of sodium-containing and fluorine-containing compounds. Determine the mass content of sodium and fluorine elements in the waste cathode carbon powder of the unit mass aluminum electrolytic cell by chemical analysis method, and determine the CN in the waste cathode carbon powder of the unit mass aluminum electrolytic cell by chemical analysis method - The mass content of ions.

[0068] (2) Add 200g of zirconia balls to the conversion mill, weigh 100g of spent cathode carbon powder, 20g of Ca(OH) 2 Add to the transformation mill and mix well, use N 2 Replace the air in the conversion mill, then add 300g H 2 O. The conversion mill was turned on, the rotation speed was 600 rpm, the temperature was 50° C., and the conversion reaction time was 3 h.

[0069] Aft...

Embodiment 2

[0083] (1) Pulverize the spent cathode carbon block of the aluminum electrolytic cell in a high-speed pulverizer, sieve it with a 200-mesh sieve, and use the undersieve to carry out mechanochemical conversion and recovery of sodium-containing and fluorine-containing compounds. Determine the mass content of sodium and fluorine elements in the waste cathode carbon powder of the unit mass aluminum electrolytic cell by chemical analysis method, and determine the CN in the waste cathode carbon powder of the unit mass aluminum electrolytic cell by chemical analysis method - The mass content of ions.

[0084] (2) Add 200g of zirconia balls to the conversion mill, weigh 100g of spent cathode carbon powder and 30g of CaO, add them to the conversion mill and mix evenly. 2 Replace the air in the conversion mill, then add 400g H 2 O. The conversion mill was turned on, the rotation speed was 800 rpm, the temperature was 60° C., and the conversion reaction time was 2 h.

[0085] After the ...

Embodiment 3

[0094] (1) Pulverize the spent cathode carbon block of the aluminum electrolytic cell in a high-speed pulverizer, sieve it with a 200-mesh sieve, and use the undersieve to carry out mechanochemical conversion and recovery of sodium-containing and fluorine-containing compounds. Determine the mass content of sodium and fluorine elements in the waste cathode carbon powder of the unit mass aluminum electrolytic cell by chemical analysis method, and determine the CN in the waste cathode carbon powder of the unit mass aluminum electrolytic cell by chemical analysis method - The mass content of ions.

[0095] (2) Add 200g of zirconia balls to the conversion mill, weigh 100g of spent cathode carbon powder and 20g of BaO, add them to the conversion mill and mix evenly, and use N 2 Replace the air in the conversion mill, then add 350g H 2 O. The conversion mill was turned on, the rotation speed was 1000 rpm, the temperature was 80° C., and the conversion reaction time was 3.5 h.

[0...

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Abstract

The invention relates to a mechano-chemical conversion and recovery method for a sodium-containing compound and a fluorine-containing compound in aluminum electrolysis cell waste cathode carbon blocks. The method comprises the steps that the aluminum electrolysis cell waste cathode carbon blocks are crushed, ground and homogenized at first, so that waste cathode carbon powder with particles beingsmaller than or equal to 200 [mu]m is obtained; the waste cathode carbon powder, a sodium compound and fluorine compound conversion agent, a cyanide conversion agent, a grinding aid and water are added into a conversion mill; and under synchronous action of high-energy mechanical force, the sodium-containing compound in the waste cathode carbon powder is converted into a fluorine-free soluble sodium compound, the fluorine-containing compound is converted into an insoluble and harmless mineral substance fluorine compound, a cyanogen-containing compound is oxidized and converted into harmless N2or NH3 and CO2, and therefore harm of fluoride and cyanide in the aluminum electrolysis waste cathode carbon blocks are removed thoroughly, and harmless resource recycling of the aluminum electrolysis waste cathode carbon blocks is achieved. The mechano-chemical conversion and recovery method is simple in process, low in production cost, free of three-waste pollution and environmentally friendly,and large-scale production is easy to implement.

Description

technical field [0001] The invention relates to a method for mechanochemical conversion and recovery of sodium-containing and fluorine-containing compounds in waste cathode carbon blocks of aluminum electrolytic cells, and belongs to the technical field of harmless and resourceful utilization of solid waste in the electrolytic aluminum industry. Background technique [0002] By 2017, China has built about 45 million tons of aluminum electrolytic production capacity, and the actual output exceeds 36 million tons, accounting for more than 50% of the global electrolytic aluminum production capacity. During the production process of aluminum electrolysis, the carbon cathode expands due to the penetration of fluorine-containing salts, which further causes damage to the electrolytic cell and scraps it. Aluminum electrolytic cells generally need to be shut down for overhaul after about 4 to 6 years of use, and all waste tank lining materials (referred to as overhaul slag) are taken...

Claims

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Application Information

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IPC IPC(8): B09B3/00B09B5/00C01F11/22C01F5/28C01D7/00C01D1/04
CPCC01D1/04C01D7/00C01F5/28C01F11/22B09B5/00B09B3/40
Inventor 刘恩辉邵旭
Owner XIANGTAN UNIV
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