Fig. 3.

Local analysis of FCC electrode. (A) Symmetry is used to simulate a quarter of the FCC domain. The solid is gray. The velocity magnitude is shown at $R{e}_f=1.8$ (Top) and $R{e}_f=18.2$ (Bottom), and a detailed view of the streamlines is shown in B and C, respectively. The arrows show the emergence of surface stagnation lines. The color bar shows the velocity magnitude normalized by the superficial velocity. (D) The local mass transfer coefficient from Eq. 1 is plotted in the axial direction. The curves correspond to the simulation points from Fig. 2C and are in ascending $R{e}_f=$ 0.6 to 24.3. The dashed line corresponds to $R{e}_f=3.0$, the first curve in the inertial regime. The orange curves correspond to $R{e}_f=18.2$ (top) and $R{e}_f=1.8$ (bottom). (E) The velocity in the axial direction along a line down the center of the quarter domain in the axial direction at the extremes of the simulated $R{e}_f$.