Thermodynamic Study of Leached Metals (Cu, Zn and Ni) from Waste Printed Circuits by Electrochemical Method
Reyes Cruz, Victor Esteban
2014
J.F. Montiel Hernández, M.I. Reyes Valderrama, I. Rivera Landero, C.H. Rios-Reyes, M.A. Veloz Rodríguez, F. Patiño Cardona, V.E. Reyes-Cruz,(2014), "Thermodynamic Study of Leached Metals (Cu, Zn and Ni) from Waste Printed Circuits by Electrochemical Method", Advanced Materials Research, Vol. 976, pp. 86-90, 2014
Abstract
A thermodynamic study (Pourbaix type diagrams, using the software Hydra/Medusa) of acid leaching solutions to obtain the electrochemical recovery of Ni, Cu and Zn present in printed circuit boards is reported. Solutions were characterized by atomic absorption spectroscopy at room temperature. The metals were leached in a 0.9237 M H2SO4 solution (pH = 1.56) at temperatures of 313, 323, 333 and 343 K. From this data, the reduction potentials were determined for each metal, finding the values of -0.0024, -1.1274 and-0.5892 V vs calomel for Cu, Ni and Zn, respectively. Displacement in the reduction potential with the increase of the metal concentration in the leaching solution was observed.
Related articles
Electrochemical evaluation of chiral iminic compounds.
Coating of A304 stainless steel with Ag from photographic industry waste.
Evaluation of organic compounds as corrosion inhibitors in an acidic environment.
Effect of pH on the corrosion of carbon steel in sour water.
Ag Recovery on Stainless Steel in a Press Type Electrochemical Reactor
Simulation of the electro-remediation process in Pb(II)-contaminated sand.
Pourbaix diagrams and the effect of activity, for M+H2O systems.