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Determination of Limiting Current Density, Plateau Length, and Ohmic Resistance of a Heterogeneous Membrane for the Treatment of Industrial Wastewaters with Copper Ions in Acid Media

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Barros, K. S. ; Tenorio, J. A. S. ; Perez-Herranz, V. ; Espinosa, D. C. R. ; Wang, T ; Chen, X ; Guillen, DP ; Zhang, L ; Sun, Z ; Wang, C ; Haque, N ; Howarter, JA ; Neelameggham, NR ; Ikhmayies, S ; Smith, YR ; Tafaghodi, L ; Pandey, A
Total Authors: 17
Document type: Journal article
Source: ENERGY TECHNOLOGY 2019: CARBON DIOXIDE MANAGEMENT AND OTHER TECHNOLOGIES; v. N/A, p. 8-pg., 2019-01-01.
Abstract

In the last years, the electrodialysis process has been considered as an alternative to the chemical precipitation for the treatment of wastewaters from electroplating industries due to some limitations involved in the precipitation, as the sludge formation. For the success of the electrodialysis, some membranes properties have to be evaluated and the chronopotentiometry technique can be used. Hence, the present paper aimed at using chronopotentiometry for determining the limiting current density, plateau length, and ohmic resistance of the cationic heterogeneous HDX100 membrane by constructing current-voltage curves. The synthesized solution of the effluent from the electroplating industry evaluated was prepared with copper sulfate and sulfuric acid (2 g Cu2+/L and pH 2). The chronopotentiometric curves were also evaluated for the study of the precipitate formation. According to the results, typical curves ofmonopolar membranes were obtained and the properties could be effectively determined by chronopotentiometry. (AU)

FAPESP's process: 12/51871-9 - Study Center for Technology in Waste Solid Treatment and Recycling - SCTWSTR
Grantee:Jorge Alberto Soares Tenório
Support Opportunities: Research Projects - Thematic Grants