越南某磷矿工艺矿物学研究

王灿霞; 庞建涛; 肖喆; 杨稳权; 张华

Study Study on Py of a Phosphate Rock in Vietnamneralogy of a Phosphate Rock in Vietnamon Process Mineralogy of a Phosphate Rock in Vietnam

Received:August 11, 2020 Revised:August 28, 2020 Accepted:September 04, 2020 Published Online:February 08, 2021

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KeyWord:Phosphate;rock, Wavellite, MLA, Process;mineralogy, Vietnam

Author	Institution
WANG canxia	National Engineening and Technology Center for the Development & Utilzation of Phosphorous Resources
pangjiantao	National Engineening and Technology Center for the Development & Utilzation of Phosphorous Resources
xiaozhe	National Engineening and Technology Center for the Development & Utilzation of Phosphorous ResourcesNational Engineening and Technology Center for the Development & Utilzation of Phosphorous Resources
yangwenquan	National Engineening and Technology Center for the Development & Utilzation of Phosphorous Resources
zhanghua	National Engineening and Technology Center for the Development & Utilzation of Phosphorous Resources

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Abstract:

The process mineralogy of a phosphate rock in Vietnam was studied, The results show that the content of P₂O₅ in the phosphate rock is 21.85%, which is a low-grade phosphate rock. The main harmful element is SiO₂, with a content of 34.73%. The industrial type is siliceous and silicate type phosphorite. P₂O₅ mainly occurs in carbonate-fluorapatite and a small amount in wavellite, In the ore samples, the carbonaceous carbonate-fluorapatite is mainly clastic, euhedral short columnar and microcrystalline aggregate structure, while the argentite is columnar. SiO₂ mainly exists in siliceous minerals, and a small amount exists in silicate minerals. Removal of some siliceous minerals can meet the current requirements of wet process phosphoric acid ore. The phosphate rock is weathered ore with soft texture and easy to be broken and grinded. After grinding, the ore sample particles are enriched into fine particles. When grinding to - 0.038 mm, the monomer dissociation degree of carbonate-fluorapatite is 93.62%, and that of quartz and chalcedony is 95.49%. There are siliceous mineral blocks and lenses in the ore samples, which can be removed in the crushing stage or rough grinding stage to reduce the grinding cost. The high content of silicate minerals in ore samples will have adverse effects on the subsequent wet process phosphoric acid process, so it should be removed as much as possible.