• Title/Summary/Keyword: Vanadium-titanium magnetite (VTM) ore

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Crystal Structure Behavior of Vanadium-Titanium Magnetite (VTM) Ore by Planetary Ball Mill (바나듐 함유 티탄철광의 유성 볼밀에 의한 결정구조 거동)

  • Han, Yosep;Kim, Seongmin;Jung, Minuk;Jeon, Ho-Seok
    • Resources Recycling
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    • v.31 no.2
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    • pp.63-69
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    • 2022
  • In this study, mechanical grinding using a planetary ball mill was performed under various conditions to evaluate its effect on the crystal structure of vanadium titanium magnetite (VTM) ore from the Kwain Mine in South Korea. The crystal structure of the activated product was also evaluated. Magnetite and ilmenite were identified as the main types of VTM ore used in the Kwain Mine, and the main types of gangue minerals were iron-based silicate minerals. According to the mechanical activation results, the crystallinity and crystal size decreased as the size of the grinding media (balls) decreased, and the amorphization of the sample/ball filling was significant as the amount of the sample was reduced. In addition, as the grinding speed and time increased, the crystal structure significantly changed, proving that these two parameters had a greater effect on the crystal structure than the ball size and sample/ball filling ratio.

Thermodynamic Evaluation of Sulfate-Roasting Process for the Vanadium Extraction from Korean VTM Ore (국내부존 VTM으로부터 바나듐 회수를 위한 황화배소 공정의 열역학적 평가)

  • Kim, Youngjae;Choi, Kyungsob;Park, Hyunsik;Chung, Kyeong Woo
    • Resources Recycling
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    • v.31 no.2
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    • pp.49-55
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    • 2022
  • In the present study, the thermodynamic evaluation of the sulfate-roasting process was conducted to extract vanadium from the Korean vanadium titano-magnetite ore. The leaching efficiency of vanadium and other impurities was analyzed for varying roasting temperatures and addition of Na2SO4. In the case of sulfate roasting, the roasting temperature was 200 ℃ higher than that previously observed Na2CO3 roasting. However, the higher leaching efficiency of vanadium and lower leaching efficiency of other impurities, such as aluminum and silicon, were observed. The high selectivity for the extraction of vanadium in sulfate roasting would result from the reaction mechanism between SO2 gas and vanadium concentrate.

Development of Vanadium Recovery Process Using Reduction Pre-treatment from Vanadium Titanium-Magnetite (VTM) Ore (VTM광으로부터 환원 전처리를 이용한 바나듐 회수 공정 개발)

  • Go, Byunghun;Jeong, Dohyun;Han, Yosep;Kim, Seongmin;Chu, Yeoni;Kim, Byung-su;Jeon, Ho-Seok
    • Resources Recycling
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    • v.31 no.2
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    • pp.12-19
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    • 2022
  • The study was conducted to develop a vanadium recovery process using reduction pre-treatment in the Vanadium TitanoMagnetite (VTM) The sample for the research was provided by the Gwan-in Mine in Pocheon, Gyeonggi-do. The vanadium content of the sample is 0.54 V2O5% and vanadium is concentrated mainly in magnetite and ilmenite. Magnetic separation of the sample can increase vanadium content up to 1.10 V2O5%. To increase the vanadium content further, reduction pre-treatment was performed, which is a process of concentrating vanadium present in the iron by reducing iron in magnetite using carbon(C). Based on this reduction pre-treatment, the magnetic separation process was developed, which achieved a vanadium grade of 1.31V2O5% and 79.68% recovery. In addition, XRD analysis of the vanadium concentrate before and after reduction and the final vanadium concentrate was performed to confirm the behavior of vanadium by reduction pre-treatment.