RU2007132092A - METHOD FOR HYDROGEN GENERATION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (4)

1. A method of generating hydrogen by chemical reaction of silicon with alkali solutions, characterized in that the reaction product, a solution of a salt of silicic acid is subjected to electrodialysis, obtaining in the anolyte of silicic acid and oxygen, and in the catholyte a solution of alkali and hydrogen, and the alkali returns to its zone reactions with silicon, and hydrogen and oxygen are converted into the corresponding form of energy. 2. The method according to claim 1, characterized in that the rate of hydrogen production is increased by displacing from the reaction zone a solution of silica salt with alkali supplied in appropriate quantities from an electrodialyzer, and decreases by displacing from a reaction zone of alkali a solution of silica salt. The concentration of reagents is changed by adjusting the current density on the electrodialyzer electrodes in the range of 50-100 A / sq.m. 3. A device for producing hydrogen by conducting a reaction of interaction of silicon with alkali, containing a reactor for reacting reactants and a gas collector for supplying the generated hydrogen to a heat or electric energy generator, characterized in that the reactor, by means of a liquid collector, is connected to the electrodialysis unit at the cathode which has an exhaust pipe for the discharge generated in the catholyte of hydrogen, connected to the gas collector of the energy generator and the exhaust manifold for the drain solution and alkali and returning it to the hydrogen production reactor, and a pipe is placed at the anode for the drainage generated in the oxygen anolyte, and the collector for the removal of silica salt from the reactor and the collector for the removal of alkali from the electrodialyzer form a single circuit for the circulation of liquid reagents. 4. The device according to claim 3, characterized in that the electrodialyzer further comprises an automatic unit for matching the amount of hydrogen produced in the reactor for its production, depending on the change in the concentration of alkali solution, the executive element of which is the current density regulator on the electrodialyzer electrodes.