Abstract
In the hydrometallurgical process of molybdenum using ammonia solution, ammonium paramolybdate tetrahydrate (APT: (NH4)6Mo7O24·4H2O) is produced as an intermediate product after a crystallization step. ATP is then thermally decomposed at a high temperature to give MoO3, which is reduced by hydrogen gas in a two-stage process to reduce molybdenum metal powder as the final product. If APT is pre-dried at an appropriately low temperature to remove the crystal water corresponding to 4 mol per mol of APT, it changes into (NH4)4Mo5O17, and the content of residual ammonia, which can be utilized as a reductant, in the ammonium molybdate increases. In this regard, the self-reducing potential of (NH4)4Mo5O17 was examined in this study through the effectiveness analysis of the residual ammonia component as a reductant for the primary hydrogen reduction step. In a series of experimental work on the thermal decomposition of (NH4)4Mo5O17 in an inert atmosphere, a maximum self-reduction degree of 18% was achieved. Based on this result, it can be expected that the metal powder can be manufactured in a more effective way than conventional processes in terms of hydrogen consumption and reaction time.
Funder
Ministry of Trade, Industry, and Energy
Subject
Geology,Geotechnical Engineering and Engineering Geology
Reference22 articles.
1. Proposal on how to Activate Recycling of Critical Minerals;Chung;J. Korean Soc. Miner. Energy Resour. Eng.,2022
2. Leaching of Molybdenite by Hydrochloric Acid Solution Containing Sodium Chlorate;Nguyen;Resour. Recycl.,2022
3. The Hydrogen Reduction Behavior of MoO3 Powder;Koo;Resour. Recycl.,2022
4. Thermal decomposition of ammonium molybdate mixture;Yin;Trans. Nonferrous Met. Soc. China,1991
5. Thermo-Raman investigation on thermal decomposition of (NH4)6Mo7O24·4H2O;Murugan;J. Chem. Soc. Dalton Trans.,2001
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