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Method for preparing aluminum silicon iron alloy through hollow electrode feeding by using waste refractory material as raw material

A technology of waste refractory material and hollow electrode, which is applied in the field of electrometallurgy, can solve the problem that the resource utilization is still in the research stage.

Active Publication Date: 2019-07-16
NORTHEASTERN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0008] From the above analysis, it can be seen that the hazardous waste and solid waste generated in the current electrolytic aluminum, aluminum processing and power industries are treated separately, most of which are in the stage of harmless treatment, and effective resource utilization is still in the research stage. As a result, the environmental pollution problems of these solid wastes have not been fundamentally solved

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  • Method for preparing aluminum silicon iron alloy through hollow electrode feeding by using waste refractory material as raw material
  • Method for preparing aluminum silicon iron alloy through hollow electrode feeding by using waste refractory material as raw material
  • Method for preparing aluminum silicon iron alloy through hollow electrode feeding by using waste refractory material as raw material

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Embodiment 1

[0042] The method for preparing Al-Si-Fe alloy by using waste refractory material as raw material for hollow electrode feeding comprises the following steps:

[0043] Step 1, the waste refractory material in the overhaul slag of the aluminum electrolytic cell, the waste cathode carbon block, and the fly ash are respectively made into powders, and the particle size is 100 mesh;

[0044] Step 2, according to the composition of the target aluminum silicon ferroalloy: aluminum content 25%, silicon content 65%, the rest is iron, calcium, titanium and other trace metals, using the fixed carbon contained in the waste cathode carbon block as the reducing agent according to the chemical The metering ratio is used to calculate the mass of waste refractory materials, waste cathode carbon blocks and fly ash required to reduce metal oxides, and finally the mass ratio of waste refractory materials, fly ash and waste cathode carbon blocks is 1:6:4. Put the waste refractory material, waste ca...

Embodiment 2

[0048] The method for preparing Al-Si-Fe alloy by using waste refractory material as raw material for hollow electrode feeding comprises the following steps:

[0049] Step 1, the waste refractory material in the overhaul slag of the aluminum electrolytic cell, the waste cathode carbon block, and the fly ash are respectively made into powders, and the particle size is 100 mesh;

[0050] Step 2, according to the composition of the target aluminum-silicon-ferroalloy: aluminum content 27%, silicon content 63%, and the rest are iron, calcium, titanium and other trace metals; the fixed carbon contained in the waste cathode carbon block is used as the reducing agent according to the chemical The metering ratio is used to calculate the mass of waste refractories, fly ash and spent cathode carbon blocks required to reduce metal oxides, and the mass ratio of waste refractory materials, fly ash to spent cathode carbon blocks is 1:3:2; Put the refractory material, waste cathode carbon blo...

Embodiment 3

[0054] The method for preparing Al-Si-Fe alloy by using waste refractory material as raw material for hollow electrode feeding comprises the following steps:

[0055] Step 1, the waste refractory material in the overhaul slag of the aluminum electrolytic cell, the waste cathode carbon block, and the fly ash are respectively made into powders, and the particle size is 100 mesh;

[0056] Step 2, according to the composition of the target aluminum silicon ferroalloy: the aluminum content is 31%, the silicon content is 58%, and the rest is iron, calcium, titanium and other trace metals; the fixed carbon contained in the waste cathode carbon block is used as the reducing agent according to the chemical The metering ratio is used to calculate the mass of waste refractories, fly ash, and spent cathode carbon blocks required to reduce metal oxides, and the mass ratio of waste refractory materials, fly ash to spent cathode carbon blocks is 1:1:1; Put the refractory material, waste cath...

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Abstract

The invention provides a method for preparing an aluminum silicon iron alloy through hollow electrode feeding by using a waste refractory material as a raw material. The waste refractory material is used as the raw material, an aluminum cell waste cathode carbon block is used as a reducing agent, pulverized fuel ash is used as an additive to adjust the aluminum content in the raw material, kieselguhr waste residues are used as an additive to adjust the silicon content in the raw material, and high temperature reduction is carried out on materials with aluminum oxide and silicon oxide as main in an electric-arc furnace to prepare the certain-component aluminum silicon iron alloy; and a hollow electrode is used for transporting powder materials, the entire electric-arc furnace smelting process can be strengthened, reduction of oxide and volatilization of fluoride are promoted, the decomposition of toxic substances cyanide and volatilization and recovery of the fluoride, chloride and alkali metals in the materials are especially accelerated, the production efficiency is improved, the production cost is reduced, and comprehensive utilization of a variety of hazardous waste and solid waste in the same process is achieved.

Description

technical field [0001] The invention relates to the field of electrometallurgy, in particular to a method for preparing aluminum-silicon-iron alloys by feeding hollow electrodes with waste refractories as raw materials. Background technique [0002] The production methods of aluminum silicon ferrosilicon are mainly divided into metal melting method and electrothermal reduction method. The metal melting method is to use pure metal aluminum, silicon, and iron to form alloys in a molten state according to a certain proportion; the electrothermal reduction method uses oxides containing aluminum, silicon, and iron as raw materials, and carbonaceous materials as raw materials. The reducing agent is used to prepare the alloy through reduction smelting in an electric arc furnace. Among them, the metal fusion method has problems such as reheating of pure metal, secondary burning loss and high production cost. The electrothermal reduction method also has problems such as shortage of...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22B7/00C22B21/00C21C7/06C22B5/04C22B26/22
CPCC21C7/06C22B5/04C22B7/001C22B21/0007C22B21/0069C22B26/22Y02P10/134Y02P10/20
Inventor 罗洪杰吴林丽徐建荣张志刚刘宜汉
Owner NORTHEASTERN UNIV
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