Abstract
In the present work, numerical simulations of the behavior of a laboratory scale rotating cylinder electrode (RCE) reactor are shown. The influence of the geometry of counter electrodes on the primary current distribution along the cathode is examined. Laminar and turbulent hydrodynamic properties are studied for a RCE reactor using a concentric cylinder as counter electrode. A turbulent mass transport study is presented using copper electrodeposition from a CuSO4-H2SO4 electrolyte as a test system. The calculated concentration of Cu(II) versus time is compared with the reported experimental data.
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