FIELD: galvanochemistry.
SUBSTANCE: invention relates to a method for producing hydrogen, according to which an electrolyte is fed into the reaction zone of an electrolyte cell filled with microspheres, located between the cathode and the anode, characterized in that the ends of the cathode and anode at the point of their contact with the reaction zone are made in the form of perforated disks, and the perforation holes are evenly distributed over the area of the perforated disks to ensure a uniform flow of electrolyte in the reaction zone for uniform flow around the microspheres, which are made of nanoporous polystyrene with a diameter of 1 mm, and covered by the island method with a film of transition metals, nanoscale metal particles are included in the pores of the microspheres, which provides an increase in the yield of hydrogen and heat release when applying positive pulses to the anode and negative pulses to the cathode, and the outer surfaces of the electrodes and their corresponding perforated disks are covered with an electrically insulating film 0.1-20 microns thick.
EFFECT: increased productivity of hydrogen production with simultaneous increased level of thermal energy generation.
1 cl, 1 dwg
