Takeru Fujinaga scite author profile

Takeru Fujinaga

2Publications

2Citation Statements Received

60Citation Statements Given

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Affiliations

Materials Science & Engineering, Nagoya University, Hitachi (United Kingdom)

Publications

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Effects of Coexisting Oxygen and Antimony in Molten Copper on Rate of Arsenic Elimination from the Copper Phase by the Use of Na<SUB>2</SUB>CO<SUB>3</SUB> Slag

Tanahashi

Fujinaga

et al. 2005

Mater. Trans.

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The rate of As elimination from molten copper by the use of Na 2 CO 3 slag was measured at 1523 K. The results obtained, under the experimental conditions of this study, show that As in molten copper is eliminated in a pentavalent form and that its elimination rate increases with increasing initial oxygen concentration in molten copper. Based on the results obtained in the present study, the overall rate of As elimination is probably controlled by mass transfer in molten copper. The mass-transfer coefficient of As in molten copper at 1523 K was determined to be 1:3ðAE0:4Þ Â 10 À4 mÁs À1 based on the material balances of As and oxygen in the molten copper and slag phases, and the equilibrium relationship of the As elimination reaction at the slag-metal interface. In addition, the behavior of the simultaneous elimination of As and Sb, which coexist as impurities in molten copper at 1523 K, were also investigated from a kinetic viewpoint. The results show that the elimination rate of As is much higher than that of Sb, and two types of elimination behaviors are observed depending on the initial oxygen concentration in molten copper. At relatively low initial oxygen concentrations, As is preferentially eliminated with an initial plateauing of Sb elimination. On the other hand, both elements are eliminated simultaneously at relatively high initial oxygen concentrations. These behaviors were examined from the viewpoint of the oxygen concentration at the slag-metal interface.

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The Rate of Arsenic and Antimony Elimination from Molten Copper by the Use of Na2CO3 Slag

Tanahashi

Fujinaga

et al. 2004

J. Japan Inst. Metals

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The rate of As elimination from molten copper by the use of Na 2 CO 3 slag was measured at 1523 K. The results obtained un der the present experimental conditions show that As in molten copper is eliminated in a penta_ valent form and that its elimina tion rate increases with increasing initial oxygen concentration in molten copper. Based on the results obtained in the present study, the overall rate of As elimination is considered to be controlled by mass transfer in molten copper. The mass_ transfer coefficient of As in molten copper at 1523 K was determined to be 1.3 (}0.4)~10 |4 mEs |1 based on the mass balances of As and oxygen in the molten copper and slag phases and the equilibrium relation of the As elimination reaction at the slag_ metal inter face. In addition, the behavior of the simultaneous elimination of As and Sb which coexist as impurities in molten copper at 1523 K were also investigated from the kinetic viewpoints. The results obtained show that the elimination rate of As is much faster than that of Sb, and two types of elimination behaviors are observed, depending on the initial oxygen concentration in molten cop per, i.e. at relatively low initial oxygen concentration, As being preferentially eliminated with stagnation of the Sb elimination, while both elements being simultaneously eliminated at relatively high initial oxygen concentration. These behaviors were ex amined from the viewpoint of the oxygen concentration at the slag_ metal interface during the process.

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Takeru Fujinaga

Effects of Coexisting Oxygen and Antimony in Molten Copper on Rate of Arsenic Elimination from the Copper Phase by the Use of Na<SUB>2</SUB>CO<SUB>3</SUB> Slag

The Rate of Arsenic and Antimony Elimination from Molten Copper by the Use of Na2CO3 Slag

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