Method for cleaning electrolyte in the bottom of residual electrolysis anode

A cleaning method and technology of aluminum electrolytic anodes, which are applied in the field of residual electrolyte cleaning, can solve problems affecting the cleanliness of residual electrodes, no records, and affecting the oxidation resistance of carbon anodes, so as to avoid equipment idling, improve cleanliness, and improve The effect of antioxidant capacity

Active Publication Date: 2007-06-06
GUIZHOU BRANCH CHINA ALUMINUM IND
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the production of aluminum electrolysis, the amount of anode residue accounts for 20%-30% of the dry material in the raw anode formula. During the oxidation reaction process of the electrolytic cell, some electrolyte penetrates into the inside of the residue, so that the residue can be reused in the process of reuse. The high content of ash and sodium will affect the oxidation resistance of the carbon anode, and it will also bring the electrolyte to the carbon production line to affect the cleanliness of the anode
At present, the cleaning method dedicated to cleaning the bottom of the residual pole has not been recorded

Method used

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  • Method for cleaning electrolyte in the bottom of residual electrolysis anode
  • Method for cleaning electrolyte in the bottom of residual electrolysis anode
  • Method for cleaning electrolyte in the bottom of residual electrolysis anode

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Embodiment 1

[0015] As shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 4, the method for cleaning the bottom of the aluminum electrolytic anode residues of the present invention includes a catenary trolley 2 for transporting the residues, a 1# electrolyte cleaner 6, a front proximity switch 3, and a trolley stopper 4. 2# electrolyte cleaner 12, rear proximity switch 13, cleaner PLC controller 27, 1# cleaner converter 23 and 2# cleaner converter 29. The cleaning method includes an induction step, a signal transmission step, a confirmation step, an instruction step, a cleaning step, and a removal step; The switch 3 and the rear proximity switch 13 detect whether the catenary trolley 2 suspended on the catenary transportation line is in place; the signal transmission step is to transmit the signal sensed by the front proximity switch 3 and the rear proximity switch 13 To the process of the cleaner PLC controller 27; the confirmation step is to confirm whether the cleaning area has the process of cle...

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Abstract

The present invention is method for cleaning electrolyte in the bottom of residual electrolysis anode. The cleaning plant includes a residual anode conveying catenary chain bogie, a No. 1 electrolyte cleaning unit, a front approach switch, a bogie stopper, a No. 2 electrolyte cleaning unit, a back approach switch, a cleaning PLC controller, a No. 1 cleaning frequency variator and a No. 2 cleaning frequency variator. The cleaning process includes the following steps: inducing, signal transmission, confirming, transmitting command and cleaning. The present invention has high electrolyte cleaning effect, effective raising of anode quality, lowering of the ash and sodium content in anode, capacity of raising the antioxidant capacity of anode and capacity of prolonging the service life of anode.

Description

technical field [0001] The invention relates to a method for cleaning residual electrolyte, in particular to a method for cleaning residual electrolyte at the bottom of an electrolytic anode butt. Background technique [0002] A large number of impurities in the prebaked anode are brought by the residual electrode, and the electrolyte carried by the residual electrode contains a large amount of cryolite (Na 3 ALF 6 ) and alumina (AL 2 o 3 ), and some salts of Ca, Mg, and Li. If the residual electrode is not cleaned cleanly, the sodium content of the residual electrode will be as high as 1200PPpm. After entering the anode production line, it will directly affect the CO of the anode. 2 Activity, resulting in high anode unit consumption, intensified selective oxidation, and serious anode slag drop, which directly affects the cost of electrolytic production and the working environment of the electrolytic cell. At the same time, the impurity elements...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B08B1/04C25C3/12
Inventor 周新林赵永金何文建赵红征朱晓征刘儒山杨旸雷向军王洪宇曹红亮王春龙王番平石芳军王致民马万胜张明清陈彦军
Owner GUIZHOU BRANCH CHINA ALUMINUM IND
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