Ozone generator with position-dependent discharge distribution

The invention claimed is: 1. An ozone generator comprising: a high-voltage electrode having a surface and a length; at least one counter electrode; an interstice configured to support a flow of gas in a flow direction between the high-voltage electrode and the at least one counter electrode, the interstice having at least one dielectric therein, the interstice defining a constant mean sparking distance and a constant mean spacing between the high-voltage electrode and the at least one counter-electrode; an electrical voltage supply connected to the high-voltage electrode and the at least one counter electrode; and a plurality of surface discharge locations on the surface of the high-voltage electrode, each configured to produce silent discharges, the number of surface discharge locations per unit length decreasing in the flow direction from a first non-zero number per unit length to a second non-zero number per unit length. 2. The ozone generator according to claim 1 , wherein the number of surface discharge locations continuously decreases in the flow direction. 3. The ozone generator according to claim 1 , wherein the high-voltage electrode comprise a mesh, braid, knit, weave, or winding of wire that defines said surface discharge locations. 4. The ozone generator according to claim 3 , wherein the wire defines a mesh having a mesh width, wherein the mesh width increases in the flow direction causing the decreasing number of surface discharge locations in the flow direction. 5. The ozone generator according to claim 1 , wherein the ozone generator has a single counter-electrode and the at least one dielectric abuts the counter-electrode. 6. The ozone generator according to claim 1 , wherein the ozone generator is a plate-type ozone producer and the high-voltage electrode and the at least one counter-electrode form plates. 7. The ozone generator according to claim 1 , wherein the high-voltage electrode, the at least one dielectric and the counter-electrode are aligned concentrically with one another. 8. The ozone generator according to claim 7 , wherein the high-voltage electrode comprises a conductive outer tube surrounding a first conductive annular structure, the at least one dielectric comprises an inner dielectric tube concentrically surrounded by the first conductive annular structure, and the counter electrode comprises a second conductive annular structure concentrically disposed between the inner dielectric tube and an insulator rod. 9. The ozone generator according to claim 8 , wherein the first conductive annular structure and the second conductive annular structure comprise a structure selected from the group consisting of: wire braiding, a knitted fabric, a woven fabric, a wire winding, a granulate applied to a surface, a fibrous structure, a fleece, a felt, and a coating. 10. An ozoniser for disinfection of water, the ozoniser having at least one ozone generator according to claim 1 . 11. An ozone producer for bleaching pulp, the ozone producer having at least one ozone generator according to claim 1 . 12. The ozone producer of claim 11 , wherein the pulp comprises wood or chemical pulp. 13. The ozone generator of claim 1 , wherein the plurality of surface discharge locations on the high-voltage electrode correspond to a profiled surface of the high-voltage electrode. 14. The ozone generator of claim 1 , wherein the plurality of surface discharge locations on the high-voltage electrode correspond to a profiled surface of the at least one dielectric. 15. The ozone generator of claim 1 , wherein the plurality of surface discharge locations on the high-voltage electrode correspond to a profiled surface of the at least one counter electrode. 16. A method for generating ozone using the ozone generator of claim 1 , the method comprising: providing a gas containing oxygen to the interstice in the flow direction, energizing the ozone generator with an electrical voltage from the electrical voltage supply; and causing silent discharges to discharge from the surface discharge locations, causing at least some of the oxygen in the gas to convert into ozone. 17. The method of claim 16 , further comprising using the ozone produced by the ozone generator for disinfection of water. 18. The method of claim 16 , further comprising using the ozone produced by the ozone generator for bleaching pulp. 19. The method of claim 18 , wherein the pulp comprises wood pulp, chemical pulp, or a pulp in paper production.