Electrolytic reduction of V3S4 in molten CaCl2

Takahiro Matsuzaki; Shungo Natsui; Tatsuya Kikuchi; Ryosuke O. Suzuki

doi:10.2320/matertrans.M2016305

Electrolytic reduction of V₃S₄ in molten CaCl₂

Takahiro Matsuzaki, Shungo Natsui, Tatsuya Kikuchi, Ryosuke O. Suzuki

IMRAM - Division of Process and System Engineering

Hokkaido University

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

Metallic vanadium was successfully produced starting from vanadium sulfide by applying electrolysis in molten CaCl₂. Vanadium sulfide filled in a cathodic Ti basket and a graphite anode were immersed in the melt of CaCl₂-CaS at 1173 K in Ar, and the electrolysis was conducted at a cell voltage of 3.0 V. Sulfide electrolysis did not form carbon deposit and was free from carbon contamination, while carbon powder was formed on the cathode in the oxide electrolysis using the melt of CaCl₂-CaO. When the CaS content in the molten CaCl₂ increased, electrolysis current increased resulting in fast smelting while the oxygen and sulfur contents in metallic vanadium increased. Oxygen and sulfur contents as low as 3390 ppm and 210 ppm, respectively, were achieved by supplying about four times more electrical charge than stoichiometry.

Original language	English
Pages (from-to)	371-376
Number of pages	6
Journal	Materials Transactions
Volume	58
Issue number	3
DOIs	https://doi.org/10.2320/matertrans.M2016305
Publication status	Published - 2017

Keywords

Calcium chloride
Metallic vanadium
Molten salt electrolysis
Vanadium sulfide

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10.2320/matertrans.M2016305

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title = "Electrolytic reduction of V3S4 in molten CaCl2",

abstract = "Metallic vanadium was successfully produced starting from vanadium sulfide by applying electrolysis in molten CaCl2. Vanadium sulfide filled in a cathodic Ti basket and a graphite anode were immersed in the melt of CaCl2-CaS at 1173 K in Ar, and the electrolysis was conducted at a cell voltage of 3.0 V. Sulfide electrolysis did not form carbon deposit and was free from carbon contamination, while carbon powder was formed on the cathode in the oxide electrolysis using the melt of CaCl2-CaO. When the CaS content in the molten CaCl2 increased, electrolysis current increased resulting in fast smelting while the oxygen and sulfur contents in metallic vanadium increased. Oxygen and sulfur contents as low as 3390 ppm and 210 ppm, respectively, were achieved by supplying about four times more electrical charge than stoichiometry.",

keywords = "Calcium chloride, Metallic vanadium, Molten salt electrolysis, Vanadium sulfide",

author = "Takahiro Matsuzaki and Shungo Natsui and Tatsuya Kikuchi and Suzuki, {Ryosuke O.}",

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T1 - Electrolytic reduction of V3S4 in molten CaCl2

AU - Matsuzaki, Takahiro

AU - Natsui, Shungo

AU - Kikuchi, Tatsuya

AU - Suzuki, Ryosuke O.

PY - 2017

Y1 - 2017

N2 - Metallic vanadium was successfully produced starting from vanadium sulfide by applying electrolysis in molten CaCl2. Vanadium sulfide filled in a cathodic Ti basket and a graphite anode were immersed in the melt of CaCl2-CaS at 1173 K in Ar, and the electrolysis was conducted at a cell voltage of 3.0 V. Sulfide electrolysis did not form carbon deposit and was free from carbon contamination, while carbon powder was formed on the cathode in the oxide electrolysis using the melt of CaCl2-CaO. When the CaS content in the molten CaCl2 increased, electrolysis current increased resulting in fast smelting while the oxygen and sulfur contents in metallic vanadium increased. Oxygen and sulfur contents as low as 3390 ppm and 210 ppm, respectively, were achieved by supplying about four times more electrical charge than stoichiometry.

AB - Metallic vanadium was successfully produced starting from vanadium sulfide by applying electrolysis in molten CaCl2. Vanadium sulfide filled in a cathodic Ti basket and a graphite anode were immersed in the melt of CaCl2-CaS at 1173 K in Ar, and the electrolysis was conducted at a cell voltage of 3.0 V. Sulfide electrolysis did not form carbon deposit and was free from carbon contamination, while carbon powder was formed on the cathode in the oxide electrolysis using the melt of CaCl2-CaO. When the CaS content in the molten CaCl2 increased, electrolysis current increased resulting in fast smelting while the oxygen and sulfur contents in metallic vanadium increased. Oxygen and sulfur contents as low as 3390 ppm and 210 ppm, respectively, were achieved by supplying about four times more electrical charge than stoichiometry.

KW - Calcium chloride

KW - Metallic vanadium

KW - Molten salt electrolysis

KW - Vanadium sulfide

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Electrolytic reduction of V₃S₄ in molten CaCl₂

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Keywords

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