info:eu-repo/semantics/article
Electrochemical synthesis of ferrate(Vi): Optimization of parameters and evaluation of their impact in production cost
Fecha
2018Registro en:
Quino-Favero, J., Eyzaguirre, R., Mogrovejo, P., Prieto, P., & Del Pino, L. F. (2018). Electrochemical synthesis of ferrate(vi): Optimization of parameters and evaluation of their impact in production cost. Desalination and Water Treatment, 113, 179-186. doi:10.5004/dwt.2018.22262
1944-3994
Desalination and Water Treatment
Autor
Quino Favero, Javier
Eyzaguirre Pérez, Raúl
Prieto Veramendi, Patricia Mahela
Mogrovejo García, Paloma
Flores del Pino, Lisveth
Institución
Resumen
Ferrates have attracted considerable research in the last few decades because their activity is not associated with toxic by products. This research investigated the effect of three factors on ferrate (VI) synthesis using an electrochemical reactor: electrolyte concentration, current density, electrode effective surface: electrolyte volume ratio (S/V ratio). The results of ferrate(VI) production using two different membranes were compared. Electrolyte concentration had the greatest effect on fer-rate(VI) production. Ferrate(VI) concentration of 250 mmol dm–3 was achieved using 20 mol dm–3 of NaOH electrolyte, current density of 80 Am–2, and 2.21 S/VAn during five hours of electrolysis. A cost analysis of the consumable components such as the electrolyte, electric energy, and dissolved iron demonstrated that the electrolyte concentration had the greatest influence.