In the work, the reaction kinetics of electrocatalytic formic acid oxidation at Pd-black catalyst in acid electrolyte was investigated using a thin-film rotating disk electrode configuration. The cyclic voltammetric results showed that the charge for H-adsorption/ desorption of the electrode was gradually reduced with the prolonged potential cycling. This could be attributed that the Pd catalyst surface was chemically absorbed by H(superscript +) ions. Moreover, H-adsorption peak I (-0.125V vs. Ag/AgCl) significantly exhibited higher chemsorption activity than that for H-adsorption peak II (0.043V vs. Ag/AgCl). This effect would reduce the electrochemical active surface and in turn caused a decrease in the overall catalytic activity of Pd-black. The diffusion coefficient of formic acid at the Nafion-covered Pt-black electrode was determined to be 1.3×10^-6 cm^2s^-1 by the linear sweep voltammetry. Compared to the data obtained by chronoamperometry using the Cottrell equation, the values of the diffusion coefficient were with the same order of magnitude. The small differences by these two methods were due to the experimental errors.