TY - GEN
T1 - A statistical approach study of copper electrowinning parameters
AU - Valic, D.
AU - Tombalakian, A. S.
AU - Alfantazi, A.
AU - Moskalyk, R. R.
PY - 1999
Y1 - 1999
N2 - In 1997, 9.2 million tonnes of mined, recoverable copper was produced, of which, 1.8 million tonnes or 19.4% was produced by leaching, solvent extraction and electrowinning. The amount of copper produced by this method grew faster than those attained from concentrate smelting, signifying the growing importance of this low-cost production method. Statistical experimental design, unlike traditional approaches, allows for proper distribution of experiments within the boundaries of factors being studied such that the number of experiments required to develop a sound relationship between the factors and a response is minimized. In the past, very little use has been made of statistical experimental design in copper electrowinning studies. Traditional one-variable-at-a-time approaches are widely employed for this purpose. The present study employs a factorial experimental design to relate current efficiency with current density (180 and 300 A/m2), copper concentration (25 and 65 g/L), and temperature (40 and 60°C). Pure synthetic electrolyte with a constant acid concentration of 180 g/L was used throughout the study. The designed study produced a linear relationship where the independent variables of current density, copper concentration, and temperature, and their interactions, were found statistically significant. It was shown that current efficiency could not solely be used as a predictor of copper cathode quality. The quality of the deposit is difficult to be incorporated into a model or relation. It was determined that other measures, such as cathode morphology and crystal structure should be considered. This was done through XRD and SEM analysis.
AB - In 1997, 9.2 million tonnes of mined, recoverable copper was produced, of which, 1.8 million tonnes or 19.4% was produced by leaching, solvent extraction and electrowinning. The amount of copper produced by this method grew faster than those attained from concentrate smelting, signifying the growing importance of this low-cost production method. Statistical experimental design, unlike traditional approaches, allows for proper distribution of experiments within the boundaries of factors being studied such that the number of experiments required to develop a sound relationship between the factors and a response is minimized. In the past, very little use has been made of statistical experimental design in copper electrowinning studies. Traditional one-variable-at-a-time approaches are widely employed for this purpose. The present study employs a factorial experimental design to relate current efficiency with current density (180 and 300 A/m2), copper concentration (25 and 65 g/L), and temperature (40 and 60°C). Pure synthetic electrolyte with a constant acid concentration of 180 g/L was used throughout the study. The designed study produced a linear relationship where the independent variables of current density, copper concentration, and temperature, and their interactions, were found statistically significant. It was shown that current efficiency could not solely be used as a predictor of copper cathode quality. The quality of the deposit is difficult to be incorporated into a model or relation. It was determined that other measures, such as cathode morphology and crystal structure should be considered. This was done through XRD and SEM analysis.
UR - http://www.scopus.com/inward/record.url?scp=0033489441&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:0033489441
SN - 0873394372
T3 - 4th International Conference COPPER 99-COBRE 99
SP - 711
EP - 728
BT - 4th International Conference COPPER 99-COBRE 99
A2 - Dutrizac, J.E.
A2 - Ji, J.
A2 - Ramachandran, V.
A2 - Dutrizac, J.E.
A2 - Ji, J.
A2 - Ramachandran, V.
T2 - Fourth International Conference COPPER 99 - COBRE 99
Y2 - 10 October 1999 through 13 October 1999
ER -