Paper Titles

Preface and Organizing Committee

Molecular Identification of a Strain Acidithiobacillus Ferrooxidans and its Biological Characteristics
p.3

Kinetics of Leaching Vanadium with Sulfuric Acid from Carbonaceous Shale Containing Vanadium
p.7

Influencing Factors and Mechanism of Cobalt Redissolution from Zinc Sulphate Solution
p.12

Modeling Investigation of the Oxidation Kinetics of Copper and Aluminum Alloys
p.17

Determination of Surface Tension of the Freeze Slag in Reaction Shaft of Flash Smelting Furnace
p.22

Calculating Model of Fe_tO Activity in Alkali-Containing BF Slag
p.28

Recovery of Valuable Metals from Copper Slag by Hydrometallurgy
p.35

Effect Evaluation of Inhibitor to Barium Sulfate and Strontium Sulfate
p.41

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 402Kinetics of Leaching Vanadium with Sulfuric Acid...

Kinetics of Leaching Vanadium with Sulfuric Acid from Carbonaceous Shale Containing Vanadium

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Abstract:

ηA kinetic study of the leaching of stone coal ore with sulfuric acid has been investigated. The effects of the stirring speed, particle sizes of stone coal, acid concentration, leaching temperature and acid-ore ratio on the leaching rate of vanadium were examined. It was found that the leaching rate of vanadium was significantly influenced by leaching temperature. The shrinking core model was applied to the leaching process and the results showed that the process was based on chemical reaction control. And the rate of reaction was expressed as 1-(1-η)^1⁄3=4.98×10⁶·e^-55488⁄RT·t. The apparent activation energy for the leaching of vanadium⁄ was calculated to be ¾5⁄5.49 kJ/mol using Arrhenius expression.

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Advances in Metallurgical and Mining Engineering

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Periodical:

Advanced Materials Research (Volume 402)

Pages:

7-11

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.402.7

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Online since:

November 2011

Authors:

Yan Liu, Cong Sun, Wei Jun Zhong, Yu Chun Zhai

Keywords:

Acid Leaching, Kinetic, Vanadium

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© 2012 Trans Tech Publications Ltd. All Rights Reserved

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