Aluminum electrolysis bath after-starting stable electrode-changing method

An aluminum electrolytic cell, technology after start-up, applied in the field of stable electrode change method and aluminum electrolytic cell replacement anode, can solve the problems of electrolytic cell thermal balance damage, electrolytic cell loss of energy, affecting the current efficiency and electric energy consumption of the electrolytic cell, etc., and achieve improvement Effects of economic indicators, high current efficiency, and low power consumption

Inactive Publication Date: 2008-08-13
HENAN ZHONGFU IND
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Problems solved by technology

The main problem with this method is that a large amount of heat needs to be supplemented within one week after the start-up of the electrolyzer to maintain a stable energy balance, so that the electrolyzer can form a firm and regular furnace side, and it will start on the 4th day after start-up. Changing poles will cause the electrolytic cell to lose a large amount of energy, and the thermal balance of the electrolytic cell will be continuously damaged, severely affecting the formation of the furnace side of the electrolytic cell, and also affecting the current efficiency and energy consumption of the electrolytic cell

Method used

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Embodiment

[0019] Embodiment: A method of pole changing in the late stage of starting an aluminum electrolytic cell, starting from the 13th day after starting the aluminum electrolytic cell to replace the anodes, replacing one group of anodes every day, and replacing 20 groups of anodes on the electrolytic cell after 20 consecutive days. In order to ensure that after the anode is replaced in the late start-up period, it can be docked with the anode replacement in the normal period. When the anode is replaced on the 16th and 19th days after the aluminum electrolytic cell is started, it can also produce 18-day residual anode; after the aluminum electrolytic cell is started When the anode is replaced on the 22nd day, it can still produce 20-day anode residue; when the anode is replaced on the 25th day after the aluminum electrolytic cell is started, it can still produce 11-day anode residue; It can produce 11-day anode residues; it can also produce 7-day anode residues when the anode is repl...

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Abstract

The invention discloses a stable anode-changing method at the late period of an aluminum electrobath. The anode is changed from 13th day after aluminum electrobath startup, in order to assure successive production as changing anode in normal period, a residual anode capable of producing for 18 days is used in 16th day and 19th day after aluminum electrobath startup; a residual anode capable of producing for 20 days is used in 22th day after aluminum electrobath startup; a residual anode capable of producing for 11 days is used in 25th after aluminum electrobath startup; a residual anode capable of producing for 11 days is used in 28th day after aluminum electrobath startup; and a residual anode capable of producing for 7 days is used in 32th day after aluminum electrobath startup. The invention has no anode changing after successive 12 days after aluminum electrobath startup, energy balance of the electrobath is not affected during this period, firm and structured furnace wall is formed, so that the electrobath has effects of stability, high efficiency and low consumption, thus improving the economic index of an enterprise.

Description

1. Technical field: [0001] The invention relates to a method for replacing an anode of an aluminum electrolytic cell, in particular to a method for stably changing poles in the later stage of startup of an aluminum electrolytic cell, and belongs to the field of aluminum electrolytic cell production. 2. Background technology: [0002] At present, the aluminum electrolysis industry generally uses carbon-consumable anodes. The anode group is composed of anode carbon blocks and aluminum guide rods. . Generally, the height of the anode is about 580mm, and the average daily consumption is about 15mm. One anode can be used continuously for 30 days (the height of the residual electrode is guaranteed to be 130mm). Replacing the anode (referred to as pole change) is one of the necessary periodic tasks in the aluminum electrolysis production process. In order to continue the electrolysis production, people need to replace a new anode when the anode is consumed and becomes a residual p...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C25C3/12
Inventor 张松江覃海棠岳世豹赵继安
Owner HENAN ZHONGFU IND
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