RU2005105559A - METHOD AND INSTALLATION FOR ELECTROLYSIS - Google Patents

Claims (13)

1. The apparatus for electrolysis, comprising an elongated essentially tubular external electrode, an elongated essentially tubular internal electrode, and this inner electrode is located so that it is elongated essentially in the longitudinal direction inside the outer electrode, and a separator located between the inner and outer electrodes, and at least one of the inner and outer electrodes includes two essentially tubular shaped components located one inside the other, in the immediate vicinity of one n from each other and each of them is perforated conductive structure. 2. The apparatus for electrolysis according to claim 1, in which two essentially tubular-shaped component of at least one of the inner and outer electrodes are formed of a material comprising an electrically conductive polymer. 3. The apparatus for electrolysis according to claim 2, in which two components of a substantially tubular shape of at least one of the inner and outer electrodes are coated with an electrically conductive material. 4. The apparatus for electrolysis according to claim 3, in which the two components are essentially tubular in shape, and then in the combined state are coated with an electrically conductive material. 5. The apparatus for electrolysis according to any one of claims 1 to 4, in which the separator includes a wettable fibrous material. 6. An electrolysis apparatus comprising an elongated substantially tubular external electrode, an elongated substantially tubular internal electrode, wherein this inner electrode is positioned so that it is elongated substantially in the longitudinal direction inside the outer electrode, and a separator located between the inner and outer electrodes, and at least one of the inner and outer electrodes includes a number of essentially tubular shaped components of a perforated conductive structure, which are located us one inside the other, in close proximity to one another, and these components are essentially tubular form covered with a conductive material in the combined state. 7. The apparatus for electrolysis according to claim 6, in which a series of essentially tubular components of the perforated electrically conductive structure is made of a material including an electrically conductive polymer. 8. The apparatus for electrolysis according to claim 6 or 7, in which the components are essentially tubular in shape coated with an electrically conductive material. 9. The apparatus for electrolysis, which includes a separator and at least two electrodes located on opposite sides of the separator, and at least one of the electrodes is made of a material comprising an electrically conductive polymer. 10. The apparatus for electrolysis according to claim 9, in which at least one of the electrodes, which is made of a material including an electrically conductive polymer, is coated with an electrically conductive material. 11. The apparatus for electrolysis according to claim 9 or 10, in which one of the at least two electrodes is an elongated substantially tubular external electrode, and the other of at least two electrodes is an elongated substantially tubular internal electrode, wherein the inner electrode is placed so that it is stretched essentially in the longitudinal direction inside the outer electrode, and the separator is located between the inner and outer electrodes. 12. A method for carrying out electrolysis, comprising providing an electrolysis apparatus with an elongated substantially tubular external electrode, an elongated substantially tubular internal electrode, where the inner electrode is placed so that it is located in a substantially longitudinal direction inside the outer electrode, and a separator located between the inner and outer electrodes, wherein at least one of the inner and outer electrodes includes at least two substantially tubular components laid one inside the other, in close proximity to one another, and each of these essentially tubular components is a perforated electrically conductive structure, keeping the internal and external electrodes in an electrolyte solution, and establishing a potential difference between the internal and external electrodes, thus obtaining hydrogen by electrolysis. 13. The method according to p. 12, in which the aging of the inner and outer electrodes in an electrolyte solution includes maintaining the inner and outer electrodes in an acidic electrolyte solution.