Abstract
The electrosynthesis of H2O2via O2 reduction was feasible employing cheap, unmodified graphite felt on top of carbon cloth as air-diffusion cathode fitted into an undivided filter-press cell. The experiments were performed in a pre-pilot plant with recirculation of 4 dm3 of 0.05 M Na2SO4 solutions at pH 3.0 upon continuous air feeding to the cathode. The H2O2 electrogeneration occurred within the range −0.30 ≤ E ≤−0.01 V|SHE, being dependent on the mean linear flow velocity (u), which is related to the mass transport of hydronium ions. Optimum conditions achieved at E = −0.30 V|SHE and u = 27.4 cm s−1 yielded 100.4 mg dm−3 H2O2, with efficiency close to 100% and low energy consumption.
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