TY - GEN
T1 - The effect of anode composition on passivation of commercial copper electrorefining anodes
AU - Moats, Michael S.
AU - Hiskey, J. Brent
PY - 2006
Y1 - 2006
N2 - As commercial copper electrorefineries look to expand their capacities by increasing their operating current density, the likelihood of anode passivation intensifies. To improve the industry's understanding of the passivation phenomena, the role of anode composition was evaluated. While previous studies have focused on studying one impurity element at a time, this study was conducted using forty-four commercial electrorefining anode samples supplied by ten copper companies The passivation response of each sample was evaluated under accelerated galvanostatic conditions in synthetic copper electrowinning electrolyte at 65°C. This information allows for correlations between composition and passivation tendencies over a wide range of impurity elements and concentrations. It was found that selenium, tellurium, silver, lead and nickel accelerated passivation. It appeared that oxygen accelerated passivation when increased from 500 to 1500 ppm, but further increases did not have an effect. Arsenic was the only impurity found that inhibited passivation.
AB - As commercial copper electrorefineries look to expand their capacities by increasing their operating current density, the likelihood of anode passivation intensifies. To improve the industry's understanding of the passivation phenomena, the role of anode composition was evaluated. While previous studies have focused on studying one impurity element at a time, this study was conducted using forty-four commercial electrorefining anode samples supplied by ten copper companies The passivation response of each sample was evaluated under accelerated galvanostatic conditions in synthetic copper electrowinning electrolyte at 65°C. This information allows for correlations between composition and passivation tendencies over a wide range of impurity elements and concentrations. It was found that selenium, tellurium, silver, lead and nickel accelerated passivation. It appeared that oxygen accelerated passivation when increased from 500 to 1500 ppm, but further increases did not have an effect. Arsenic was the only impurity found that inhibited passivation.
KW - Anode
KW - Copper electrorefining
KW - Passivation
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UR - http://www.scopus.com/inward/citedby.url?scp=33846114271&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:33846114271
SN - 0873396332
SN - 9780873396332
T3 - 2006 TMS Fall Extraction and Processing Division: Sohn International Symposium
SP - 507
EP - 518
BT - Sohn International Symposium
T2 - 2006 TMS Fall Extraction and Processing Division: Sohn International Symposium
Y2 - 27 August 2006 through 31 August 2006
ER -