Method for synchronously extracting iron and niobium from Bayan Obo low-grade ores

A synchronous extraction and low-grade technology, applied in the direction of fluidized bed furnace, etc., can solve the problems of limited application and limited dissolution, and achieve the effects of low processing cost, reduced energy consumption, and convenient operation

Inactive Publication Date: 2015-12-16
INNER MONGOLIA UNIV OF SCI & TECH
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Problems solved by technology

Studies have shown that during the reduction process of the blast furnace, niobium minerals will be reduced to niobium carbide (NbC), forming a NbC stagnation zone at the slag-iron interface, whic

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  • Method for synchronously extracting iron and niobium from Bayan Obo low-grade ores

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Embodiment 1

[0040] Extraction and separation of iron and niobium in niobium iron ore

[0041] The content (%) of metal oxide in the raw material is: T Fe 15~24;Nb 2 o 5 0.15~0.20; REO6~10.

[0042] It is divided into three parts: smelting reduction of mineral powder, extraction of niobium by melting slag, and condensation and separation of flue gas.

[0043] Smelting reduction:

[0044] 1) The iron ore powder and hot flue gas are combined into the cyclone preheating reducer through the pipeline for preheating and then sent to the melter gasifier.

[0045] 2) Fuel charge and injected O in the melter gasifier 2 React with pulverized coal to generate gas, molten iron, and liquid slag, which are discharged through their respective outlets.

[0046] 3) The coal gas generated after the reaction in the melter-gasifier and the water vapor or CO injected into the upper end of the melter-gasifier 2 After exchanging heat with pulverized coal, it enters the cyclone preheating reducer for prehe...

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Abstract

The invention provides a method for synchronously extracting iron and niobium from Bayan Obo low-grade ores. The method comprises the following process steps: 1) pretreating low-grade niobate to obtain high-temperature aggregates; 2) carrying out smelting reduction on the high-temperature aggregates to obtain niobium-containing molten iron and niobium-containing iron removed slag; 3) carrying out oxidative slagging on the niobium-containing molten iron to obtain niobium removed crude iron and niobium-rich slag; 4) carrying out mixed hardening and tempering on the iron removed slag in the step 2) and the niobium-rich slag in the step 3) to obtain low-viscosity niobium-containing slag; 5) carrying out chlorination on the low-viscosity niobium-containing slag to obtain niobium removed slag and a gaseous multi-metal chloride; and 6) carrying out condensation separation on the gaseous multi-metal chloride to obtain a chloride of niobium. Rare earth elements in the ores, such as niobium, are separated while iron is extracted from the low-grade ores by adopting the method, thus achieving short-process stepped extraction separation of multiple metal resources in a same thermal process.

Description

technical field [0001] The invention relates to a chlorination metallurgical method for extracting iron and separating trace rare earth elements from low-grade Baiyunebo mine, and belongs to the field of pyrometallurgy. Background technique [0002] The Baiyun Obo Mine in Baotou is mainly composed of iron, niobium, rare earth and other polymetallic co-associated deposits. The proven rare earth reserves are 43.5 million tons, ranking first in the world, and the niobium reserves are more than 6.6 million tons, ranking second in the world. The most important niobium resource base. Niobium and iron co-exist in Baiyan Obo Mine, closely inlaid, low-grade, and difficult to smelt. During the iron ore separation process, part of the niobium is extracted with the iron, and the rest of the niobium remains in the iron separation tailings, which makes the extraction of niobium more difficult. The extraction of niobium from iron ore concentrates used the method of blast furnace reductio...

Claims

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Application Information

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IPC IPC(8): C22B1/00C21B13/00C22B23/00
Inventor 张凯武文斐李玉梅李保卫
Owner INNER MONGOLIA UNIV OF SCI & TECH
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