A method for separating tungsten and molybdenum from tungstomolybdate solution

Abstract

The invention discloses a method for separating tungsten and molybdenum from a tungstomolybdate solution, comprising: adding a quaternary ammonium salt as a stabilizer to the tungstomolybdate solution, adjusting the pH value to 8-11, and then adding divalent manganese salt As a precipitating agent, solid-liquid separation after reaction. The present invention can stabilize molybdate ions in the tungstomolybdate solution by introducing a stabilizer, improve the efficiency of the precipitant, and further improve the separation efficiency of tungsten and molybdenum; it introduces the stabilizer and the precipitant to selectively separate tungsten There is no toxic and harmful gas generated in the process, the cost of raw materials is low, the operating environment is good, the equipment requirements are low, and it is easy to realize industrialization; the separation process has mild conditions, avoiding the use of strong acid and alkali and high temperature and high pressure, and compared with traditional methods. The reaction time is shortened, reducing The energy consumption is high, the economic benefit is high, and the practical application prospect is good.

Description

technical field [0001] The invention belongs to the technical field of selective separation of rare metals, and in particular relates to a method for separating tungsten and molybdenum from a tungstomolybdate solution. Background technique [0002] Molybdenum is a rare strategic resource with a high melting point. With the rapid development of high-end manufacturing, automobile lightweight, nuclear power, weaponry, high-performance steel and other fields, the demand for molybdenum resources is increasing day by day; however, primary molybdenum ore and molybdenum secondary resources It is often accompanied by tungsten element. According to YST235-2007, WO in molybdenum concentrate 3 The content should not be greater than 0.05wt%. The content of tungsten in molybdenum products is very strictly controlled. However, due to the shrinkage effect of lanthanides, molybdenum and tungsten have similar atomic radii and similar electronic structures, making it difficult to separate them...

AI Technical Summary

Problems solved by technology

[0002] Molybdenum is a rare strategic resource with a high melting point. With the rapid development of high-end manufacturing, automobile lightweight, nuclear power, weaponry, high-performance steel and other fields, the demand for molybdenum resources is increasing day by day; however, primary molybdenum ore and molybdenum secondary resources It is often accompanied by tungsten element. According to YST235-2007, WO in molybdenum concentrate 3 The content shall not be greater than 0.05wt%, and the content control of tungsten in molybdenum products is very strict, but due to the shrinkage effect of lanthanide elements, molybdenum and tungsten have similar atomic radii and similar electronic structures, making it difficult to separate the two

[0003] The process of separating tungsten and molybdenum by solvent extraction and ion exchange is complicated and the cost is relatively high

[0004] The Chinese invention patent application with publication number CN106435181A (publication date 2017.2.22) discloses a synergistic extractant containing primary amine extractant and pyridine carboxylate for extracting and separating tungsten from molybdate solution. When it is 7.5-8.5, use primary amine extractant and pyridine carboxylate to extract tungsten synergistically, but it will be affected by tungsten molybdenum heteropolyacid ion

[0005] The Chinese invention patent (disclosure date 1987.5.27) with the publication number CN85108533 discloses a method for solvent extraction and separation of molybdenum in tungsten. Under strong acid conditions, molybdenum and polyacid ions are depolymerized into cationic forms, and tungsten is Extraction with the difference in the form of polyacid ions, but the amount of acid used is too large and the depolymerization rate of cations is not high

[0006] The chemical precipitation method is applied to the separation of tungsten and molybdenum due to its simple process, short process, easy operation and less secondary pollution. 3 Precipitates out, tungsten stays in solution and separates, but releases H in separation methods using sulfidation treatment 2 S gas, pollutes the environment

[0007] The Chinese invention patent with the publication number CN1033978 (publication date 1989.7.19) discloses a production method of ammonium paratungstate or sodium tungstate with high molybdenum removal effect. Guanidine salt is used as a precipitant to precipitate tungsten, while molybdenum remains in the solution However, under neutral conditions, tungstate ions and molybdate ions will polymerize to form tungsten-molybdenum heteropolyacid ions, resulting in reduced separation effect

[0008] The Chinese invention patent application with the publication number CN108425011A (publication date 2018.8.21) discloses a method for extracting tungsten and molybdenum from high-molybdenum scheelite. The peroxytungstic acid is thermally decomposed into tungstic acid precipitation, and the molybdenum remains in the solution. And separation, high energy consumption and excessive acid consumption

[0009] The Chinese invention patent with the publication number CN101565778 (publication date 2009.10.28) discloses a method for precipitating and separating tungsten and molybdenum from a mixed solution of tungstomolybdate. In a suitable pH range, a manganese divalent compound is used as a precipitant Adding it to the mixed solution and heating and stirring, the obtained solid-liquid mixture is separated from the solid-liquid to realize the separation of tungsten and molybdenum, but this method will inevitably cause the loss of molybdenum, and only a single precipitant has not been able to achieve an environmentally friendly solution. High efficiency separation of tungsten and molybdenum