Method for separating and enriching vanadium from iron concentrate and producing pure iron

A technology for separation, enrichment and iron concentrate, which is applied to the improvement of process efficiency, electric furnace, furnace type, etc., can solve the problems of complex molten iron composition, low added value, low vanadium recovery rate, etc., and achieve low production cost and vanadium recovery The effect of high efficiency and good conductivity

A technology for separation, enrichment and iron concentrate, which is applied to the improvement of process efficiency, electric furnace, furnace type, etc., can solve the problems of complex molten iron composition, low added value, low vanadium recovery rate, etc., and achieve low production cost and vanadium recovery The effect of high efficiency and good conductivity

CN110564906AInactive Publication Date: 2019-12-13陕西有色冶金矿业集团有限公司
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  • Method for separating and enriching vanadium from iron concentrate and producing pure iron

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Embodiment Construction

[0034] The present invention will be further described below in conjunction with embodiment:

[0035] 1. shown in conjunction with process flow chart of the present invention, according to weight percent, vanadium-titanium magnetite concentrate (composition: TFe64.38%FeO29.67%Fe 2 o 3 59.08%TiO 2 2.98%V 2 o 5 0.95%) and binder in a certain ratio (about 1:0.05) for mixing evenly. In the furnace, the reduction temperature is maintained at 1100-1250°C, and the reduction time is controlled to be about 8-9 hours. The average metallization rate of the product is 93.59%. It can be melted directly or melted under a small amount of metallurgical operations to achieve the enrichment of vanadium slag and high recovery of vanadium rate; the recovery rate of vanadium can reach 93.29%, and the grade of vanadium slag is 6.4%. In addition, the composition of the molten steel is 99.75%, the content of silicon is less than 0.001%, the content of manganese is less than 0.001%, and the co...

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Abstract

The invention discloses a method for separating and enriching vanadium from iron concentrate and producing pure iron. The method comprises the following steps that after vanadium-titanium magnetite ore is pressed into balls and dried, vanadium-titanium magnetite ore pellets are obtained, the vanadium-titanium magnetite ore pellets are directly reduced through a coal based shaft furnace, metallizedpellets are obtained, and the metallized pellets are subjected to melting, separating and enriching in an electric-arc furnace. According to the method, the vanadium recovery rate reaches 93% or above, the vanadium slag grade is about 6-8%, meanwhile, the purity of molten steel obtained through melting and separating is high, the iron content reaches 99.7% of above, in addition, the contents of phosphorus, sulphur, silicon, manganese and titanium in the molten steel are low, and electromagnetic pure iron and military pure iron can be produced through simple refining.

Description

Technical field: [0001] The invention belongs to the technical field of nonferrous metallurgy, in particular to a method for separating and enriching vanadium from iron concentrate and producing pure iron. Background technique: [0002] Iron and steel materials are the basic products of my country's industry, with large output and many types of products, and the prices of different types of products vary greatly. The raw materials for the production of industrial pure iron are usually ordinary iron concentrate powder and vanadium-titanium magnetite. [0003] At present, most domestic enterprises producing industrial pure iron use traditional ordinary iron concentrate powder as raw material, and adopt the long process of "sintering (or pellets)-blast furnace ironmaking-steel refining-continuous casting-hot rolling" for industrial production. Pure iron, but because industrial pure iron has extremely strict requirements on the content of slag inclusions, the refining requireme...

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Application Information

Patent Timeline
13 Dec 2019
Publication
CN110564906A
IPC
C21B13/02; C21B13/12; C22B34/22; C22B1/242
CPC
C21B13/006; C21B13/02; C21B13/12; C22B1/2406; C22B1/242; C22B34/22; Y02P10/20
Inventors
虎尚友; 纪安