This study is devoted to the evaluation of electrochemical active surface area (ECSA) for carbon felt used in various fields of electrochemical technology. For the evaluation, we used techniques based on Faraday’s law, the Randles–Sevcik equation and the calculation of the electric double layer capacitance in the electrolyte with different pH value. The measurement results are consistent with each other and for neutral, acidic and alkaline medium, the ECSA value are 20 – 30, 30 – 40 and 50 – 90 cm$^2$ per 1 cm$^2$ of geometric surface, respectively. Based on the results, the synthesis of nanostructured nickel coatings on carbon felt with prior electrochemical activation was performed. The pre-treatment in 1M KOH vs 1 M Na$_2$SO$_4$ reduces the crystallite size from 26 to 15 nm and increases the ECSA from 133 to 700 cm$^2$ per 1 cm$^2$ of geometric surface. These changes cause an improvement in other electrocatalytic features for hydrogen evolution reaction. KEYWORDS carbon felt, electrochemical surface area, electrodeposition, voltammetry, double layer capacitance, Randles–Sevcik equation, nickel coating, hydrogen evolution reaction.