A tubular ozone generator comprises concentric inner tubular electrode/dielectric with inner electrode in intimate length-to-length contact with dielectric and outer tubular electrode with corona discharge zone between the inner tubular electrode/dielectric and outer tubular electrode. A dielectric of the inner tubular electrode/dielectric has a sealed end and an open end. The outer tubular electrode has an open exhaust end concentric with the sealed end of the dielectric and a closed end that forms a port with the open end of the dielectric. A tubular gas injector is situated within and concentric with the inner tubular electrode/dielectric and in conductive electrical contact with an electrode portion of the inner tubular electrode/dielectric. The sealed end of the dielectric is sealed with a transparent end cap to permit visual inspection of an electrode of the electrode/dielectric during operation of the generator.

The present invention relates to an ozone generator comprised of a discharge means and a reflecting screen. The discharge means comprises a rough-surfaced dielectric element with central aperture and rectangular cross-section sandwiched between a first electrode and a second electrode. The first electrode is comprised of a plurality of helical windings that contact a plurality of flanges on the dielectric element and the second electrode is comprised of an electrically conductive coating which overlies the rough surface of the dielectric element. The first electrode is aligned with respect to the central aperture, dielectric element, and the second electrode such that a constant distance of separation between the electrodes is maintained along the entire length of the discharge means. The reflecting screen, joined to the discharge means by a plurality of mounting brackets, directs accumulated ozone away from the ozone generator and toward an intended site for treatment. The disclosed invention converts oxygen to ozone with great efficiency and, unexpectedly, the fusion of the second electrode with the surface of the dielectric element provides improved ozone recovery by rapidly dissipating heat generated by the discharge means.

Apparatus and methods for purifying the water in spas or hot tubs are provided. Such apparatus include an ozone generator sized and adapted to purify the water in a spa or jetted tub, the ozone generator including a chip electrode assembly adapted to produce ozone from air using an electric discharge, a power supply assembly, and a transfer assembly cooperating with said ozone generator to pass ozone produced by the ozone generator to the water in the spa or jetted tub. The chip electrode assembly is removably secured to and separately enclosed from the power supply assembly and is adapted to be easily, manually replaceable.

Apparatus and methods for purifying the water in spas or hot tubs are provided. Such apparatus include an ozone generator sized and adapted to purify the water in a spa or jetted tub, the ozone generator including a chip electrode assembly adapted to produce ozone from air using an electric discharge, a housing structured to permit visual inspection of the chip electrode in the housing, a power supply assembly, and a transfer assembly cooperating with said ozone generator to pass ozone produced by the ozone generator to the water in the spa or jetted tub. The chip electrode assembly is removably secured to and separately enclosed from the power supply assembly and is adapted to be easily, manually replaceable.

A process and reactor for chemical conversion is taught. The process allows the selective breaking of chemical bonds in a molecule by use of fast rise alternating current or fast rise pulsed direct current, each fast rise portion being selected to have a suitable voltage and frequency to break a selected chemical bond in a molecule. The reactor for carrying out such a process includes a chamber for containing the molecule and a generator for generating and applying the selected fast rise current.