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Productive cell shutting method of aluminum cell

A protective technology for aluminum electrolytic cells, applied in the field of aluminum electrolytic cells, can solve the problems of electrolytic cell lining exposed to the air, cracks and bulges in the cell lining, and achieve less cracking, smooth surface and remarkable effect

Inactive Publication Date: 2010-07-28
山西华圣铝业有限公司
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Problems solved by technology

[0004] In order to solve the problem that the lining of the electrolytic cell is directly exposed to the air without taking appropriate and reasonable protective measures when the existing aluminum electrolytic cell is stopped, so that cracks, deformations, and bulges appear in the liner of the electrolytic cell, an aluminum electrolytic cell is provided. Protective stop method of tank

Method used

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Embodiment Construction

[0011] A method for protective shutdown of an aluminum electrolytic cell, comprising the following steps: (1) extracting part of the liquid aluminum in the cell to keep the height of the liquid aluminum between 10-15 cm; (2) taking out part of the electrolyte in the cell , keep the electrolyte solution at 10-12cm; (3) lower the anode into the aluminum liquid, and after drawing out all the aluminum liquid, lift the anode so that the anode is separated from the electrolyte liquid in the tank, and insert thermocouples at different positions in the electrolytic cell; ( 4) Add the anode surface insulation material in time, and the insulation material is alumina, then seal the feed opening and the aluminum outlet, and cover the cover plate of the electrolytic cell; (5) close the purification exhaust pipe in time, use Rock wool is used to block the heat dissipation holes on the side of the electrolytic tank, and at the same time, rock wool is used to insulate the bottom to reduce the ...

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Abstract

The invention relates to the aluminum electrolytic cell technical field, in particular relating to a protective cell-shutting method of an aluminum electrolytic cell. The method aims to solve the problems of cracking, deformation and doming up, etc. caused by an inner lining directly exposed in the air during the prior cell shutting, and comprises the following steps that: (1) part aluminum liquid inside an electrolytic cell is pumped out at first; (2) then, part electrolyte liquid inside the electrolytic cell is taken out; (3) an anode is put into the aluminum liquid and is raised after all aluminum liquid is pumped out, and thermocouples are distributed inside the electrolytic cell; (4) the surface of the anode is provided with an alumina heat-preservation material, and a feeding port and an aluminum outlet are sealed closely; moreover, a cell cover plate is covered; (5) a purifying smoke evacuation pipe is closed, and rockwool is used to cork up a side heat dissipation hole of a basin and to carry out bottom heat preservation; a factory building, a trench window and an air grid section are closed, and a window inside a closed workshop is closed; and (6) when temperature inside the electrolytic cell is lowered to normal temperature, cell shutting is completed. The protective cell-shutting method ensures reasonable gradient lowering of the temperature of an electrolytic cell inner lining, and reduces inner lining damage caused during cell shutting; meanwhile, the method has better anodic protection, strong commonality, simple operation and outstanding effects, and can continue to be used.

Description

technical field [0001] The invention relates to the technical field of aluminum electrolytic cells, in particular to a method for protective shutdown of aluminum electrolytic cells. Background technique [0002] The large-scale prebaked anode electrolytic cell is the main equipment for electrolytic aluminum production, and its operation is directly related to the production efficiency of electrolytic aluminum. Since the electrolytic aluminum industry is a high-energy-consuming industry, it is often encountered that the electrolytic cell is stopped and restarted in the event of insufficient power supply or an accident, or the electrolytic cell needs to be stopped and overhauled after reaching a certain service life. It is well known that the shutdown of the electrolytic cell directly affects the cleaning and repair of the electrolytic cell, plays a decisive role in the success of the second start of the electrolytic cell and the prolongation of the service life of the cathode...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C25C3/06
Inventor 吴智明张恒成徐卫东胡金平代军王群边韩国吕伟光李登峰梁学武李芳块
Owner 山西华圣铝业有限公司
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