In this research, the electrochemical oxidation of Mn(II) acetate to Mn(III) acetate was investigated in aqueous acetic acid solution, using a bipolar particulate electrode cell.In order to determine the effect of flow modes on the yield of Mn(III) acetate, which is an important oxidizing agent and catalyst in organic reactions, a bipolar particulate electrode cell was employed both in flooded and trickle flow modes.The experiments were conducted at controlled potentials of 50-250 volts using the solution (10% H2O, 90% CH3COOH, 0.1 M Mn(CH3COO)2 .4H2O, 0.1 M CH3COONa.3H2O) and at an optimum flow rate of 0.04 $ml.s^{-1}$. The values of space-time yields for both electrode cells gave a maximum at about the same voltage range (4.5-5 V/number of layer). The maximum values obtained with approximately identical energy consumption values were 36.13 $kg.m^{-3} .h^{-1}$ and 23.78 $kg.m^{-3} .h^{-1}$ in a bipolar packed-bed and trickle-bed electrode cell, respectively. Thus, the effectiveness of the flow modes using a bipolar particulate electrode cell has been demonstrated for the electrosynthesis of Mn(III) acetate.