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High-efficiency method for preparing low-sulfur molybdenum trioxide from molybdenite by roasting

A technology of molybdenum trioxide and molybdenite, which is applied in the field of molybdenum metallurgy, can solve the problems of inaccurate temperature control of molybdenite, large environmental pollution, complicated process, etc., and achieve high product quality, low environmental pollution and low energy consumption Effect

Active Publication Date: 2016-09-21
西部鑫兴稀贵金属有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to overcome the shortcomings of the molybdenite oxidation roasting-ammonia leaching method in the above-mentioned prior art, the process is long, the cost is high, the environmental pollution is large, and the temperature of the molybdenite cannot be accurately controlled by microwave heating, the purpose of the present invention is to provide a The method of efficiently roasting molybdenite to prepare low-sulfur molybdenum trioxide combines the advantages of microwave heating and traditional heating to efficiently prepare low-sulfur molybdenum trioxide, which has broad application prospects

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] The method for preparing low-sulfur molybdenum trioxide by roasting molybdenite with high efficiency has the following specific steps:

[0023] (1) First, crush and ball mill the molybdenite to a particle size of <200 mesh, then place 30g of molybdenite in a quartz tube, and place it in a dual-frequency microwave with an output power of 0-1.6kW and a frequency of 2.45GHz and 0.915GHz in the cavity;

[0024] (2) Feed protective gas nitrogen at a rate of 0.5L / min, exhaust the air in the quartz tube, then turn on the microwave, adjust the output power to 480W, and pretreat the molybdenite with microwave radiation for 10min under the protection of nitrogen;

[0025] (3) Place 10 g of the molybdenite sample after microwave pretreatment in step (2) in a resistance heating furnace, set the temperature at 550° C., blow compressed air at a rate of 0.5 L / min, keep it warm for 2 hours, and obtain a sulfur content < 0.1% molybdenum trioxide.

[0026] It has been determined that t...

Embodiment 2

[0028] The method for preparing low-sulfur molybdenum trioxide by roasting molybdenite with high efficiency has the following specific steps:

[0029] (1) First crush the molybdenite and ball mill it to a particle size of <200 mesh, then put 50g of the molybdenite in a quartz tube and place it in a dual-frequency microwave with an output power of 0-1.6kW and a frequency of 2.45GHz and 0.915GHz in the cavity;

[0030] (2) Feed protective gas nitrogen at a rate of 1L / min, exhaust the air in the quartz tube, then turn on the microwave, adjust the output power to 560W, and pretreat the molybdenite with microwave radiation for 15min under the protection of nitrogen;

[0031] (3) Sampling 10 g of the molybdenite sample after microwave pretreatment in step (2) is placed in a resistance heating furnace, set the temperature at 550 ° C, blows compressed air at a rate of 1 L / min, and keeps it warm for 2 hours to obtain a sulfur content of <0.1 % molybdenum trioxide.

[0032] It has bee...

Embodiment 3

[0034] The method for preparing low-sulfur molybdenum trioxide by roasting molybdenite with high efficiency has the following specific steps:

[0035] (1) First crush the molybdenite and ball mill it to a particle size of <200 mesh, then put 80g of the molybdenite in a quartz tube and place it in a dual-frequency microwave with an output power of 0-1.6kW and a frequency of 2.45GHz and 0.915GHz in the cavity;

[0036] (2) Feed protective gas nitrogen at a rate of 1L / min, exhaust the air in the quartz tube, then turn on the microwave, adjust the output power to 640W, and pretreat the molybdenite with microwave radiation for 15min under the protection of nitrogen;

[0037] (3) Sampling 10 g of the molybdenite sample after microwave pretreatment in step (2) is placed in a resistance heating furnace, set the temperature at 550 ° C, blows compressed air at a rate of 1 L / min, and keeps it warm for 2 hours to obtain a sulfur content of <0.1 % molybdenum trioxide.

[0038] It has bee...

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Abstract

The invention relates to a high-efficiency method for preparing low-sulfur molybdenum trioxide from molybdenite by roasting, and belongs to the field of molybdenum metallurgy. According to the invention, molybdenite processed through crushing and ball milling is placed in a quartz tube; the quartz tube is placed in a microwave cavity; a protective gas, namely nitrogen gas, is introduced for emptying air in the quartz tube; microwave is turned on, and output power is adjusted; the molybdenite is subjected to microwave radiation pretreatment for 10-20min under nitrogen gas protection; the molybdenite obtained after the microwave pretreatment is placed in a resistance heating furnace; temperature is set to be 550-600 DEG C; compressed air is blown in; the temperature is maintained for 2h, such that molybdenum trioxide with sulfur content lower than 0.1% is obtained. According to the invention, advantages of microwave heating and electronic heating are combined, and the method has the advantages of low energy consumption, high efficiency, high product quality and the like.

Description

technical field [0001] The invention belongs to the technical field of molybdenum metallurgy, in particular to a method for preparing low-sulfur molybdenum trioxide by efficiently roasting molybdenite. Background technique [0002] Metal molybdenum, low-alloy molybdenum-based materials and molybdenum compounds are widely used in metallurgy, chemical industry, nuclear, building materials, metal pressure processing, machinery, military and other industrial fields. Molybdenum trioxide is currently mostly used as an additive for molybdenum in steelmaking production, so the requirements for its sulfur content are relatively strict. There are only four known molybdenum minerals with application value: molybdenite, calcium molybdate, iron molybdate and lead molybdate, and most of the molybdenum in the world is molybdenite (MoS 2 ) form, so the main raw material for extracting molybdenum is molybdenite. For the treatment of molybdenite, the oxidation roasting-ammonia leaching meth...

Claims

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Application Information

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IPC IPC(8): C01G39/02
CPCC01G39/02C01P2006/80
Inventor 杨双平郭拴全刘东新孙院军王磊董洁王苗邢相栋张攀辉周江峰党文静
Owner 西部鑫兴稀贵金属有限公司
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