A plasma generator generates atmospheric pressure, low temperature plasma (cold plasma), and includes a first electrode; a second electrode opposing the first electrode such that a bottom surface of the first electrode faces a top surface of the second electrode, the second electrode arranged so as to define a predetermined gap between the planar bottom surface of the first electrode and the planar top surface of the second electrode; a dielectric layer that is disposed on at least a part of the bottom surface of the first electrode having a relative permittivity between 2 and 500, and a thickness of 3 mm or less; and a power supply configured to supply electrical power to the first and second electrodes at a predetermined voltage and frequency, such that, based on the predetermined gap between the first electrode and the second electrode, atmospheric pressure, low temperature plasma is generated.

Invention relates to air cleaning systems, particularly to electric air cleaners, and may be used for decontamination of air in different industries. Invention is directed to attaining a technical effect of providing an air cleaning device, where air is cleaned owing to action of corona discharge streamers on air molecules and contamination particles. Technical effect is attained by air cleaning device that contains a high-voltage pulse generator, an outer electrode provided as a grounded metal tube, and an inner electrode rigidly secured along the tube axis by a fastening member and provided in form of a metal rod and configured so as pulsed corona discharge streamers are formed in between the inner and outer electrodes, wherein the inner electrode is spaced by a gap from an output electrode of high-voltage pulse generator and size of the gap assures breakdown of the gap with pulses formed by high-voltage pulse generator.

A plasma generator generates atmospheric pressure, low temperature plasma (cold plasma), and includes a first electrode, a second electrode arranged so as to define a predetermined gap between a planar bottom surface of the first electrode and a planar top surface of the second electrode; at least one supplemental electrode, a first dielectric layer, a second dielectric layer, at least one supplemental top dielectric layer having a relative permittivity between 2 and 500, and a thickness of 3 mm or less, at least one supplemental bottom dielectric layer having a relative permittivity between 2 and 500, and a thickness of 3 mm or less, and a power supply configured to supply electrical power to the first, second, and supplemental electrodes at a predetermined voltage and frequency, such that, based on the predetermined gaps between the first, second, and supplemental electrodes, atmospheric pressure, low temperature plasma is generated.

A plasma generator generates atmospheric pressure, low temperature plasma (cold plasma), and includes a first electrode; a second electrode opposing the first electrode so as to define a predetermined gap therebetween; at least one supplemental electrode opposing a planar top surface of the second electrode and a planar bottom surface of the first electrode; a first dielectric layer; at least one supplemental dielectric layer that is disposed on a additional planar bottom surface of the at least one supplemental electrode having a relative permittivity between 2 and 500, and a thickness of 3 mm or less; and a power supply configured to supply electrical power to the first and second electrodes at a predetermined voltage and frequency, such that, based on the predetermined gap between the first and second electrodes, atmospheric pressure, low-temperature plasma is generated.

A barrierless device and method for generating streamer discharge is provided including solid/liquid electrodes for free radical generation at high efficiency. A first electrode, including periodically positioned discharge ignition tips is deposed in proximity to a second electrode, creating a discharge gap with no dielectric barrier layer in between. The discharge gap includes an inlet and an outlet. Streamers with proximity constraints emerge from the first electrode and propagate through the discharge gap towards the second electrode by supplying either positive or negative pulse voltage to the first electrode, resulting in interaction of the streamer heads with the discharge gas and generation of radicals. Optionally, the second electrode is a liquid which interacts with the streamer head to generate additional radicals. The device can either be used to cause fast chemical reaction within the discharge gap or the generated radical gas can be removed for utilization outside the discharge gap.

An air purification device includes a reactor having a hollow shape and extending in one direction, a discharge plasma generator comprising a first electrode disposed on an outer wall of the reactor and a second electrode disposed inside the reactor, where the discharge plasma generator is configured to generate a discharge plasma in a discharge region, a plurality of dielectric particles disposed on a packed-bed of the reactor, a liquid supplier which supplies a liquid into the reactor, and a liquid recoverer which recovers the liquid discharged from the reactor.

A corona plasma cell includes a polarized electrode and a ground electrode, including a cylinder and a porous film, with the cylinder having a low profile and the polarized electrode not entering the cylinder; a corona plasma dual element including a first cell, a second cell having such a structure, which first and second cell are symmetrically arranged; and finally a plasma reactor including a plurality of cells or dual elements.

The present disclosure relates to an electric discharge device and associated method for molecular restructuring of a fluid. The electric discharge device comprises a discharge cell including a first dielectric layer and a second dielectric layer that are spaced apart by a gap constituting a flow channel for a feed fluid to be molecularly restructured. The dielectric layers and the flow channel are arranged between a first electrode and a second electrode for generating electric discharge in the flow channel when voltage is applied between the electrodes. The discharge cell comprises a double-walled dielectric tube having an inner wall and an outer wall that come together at both ends of the tube to form a double-walled dielectric tube made in one piece, the inner and outer walls of the double-walled dielectric tube constituting the first and second dielectric layers of the discharge cell.

An air purification device includes a reactor having a hollow shape and extending in one direction, a discharge plasma generator comprising a first electrode disposed on an outer wall of the reactor and a second electrode disposed inside the reactor, where the discharge plasma generator is configured to generate a discharge plasma in a discharge region, a plurality of dielectric particles disposed on a packed-bed of the reactor, a liquid supplier which supplies a liquid into the reactor, and a liquid recoverer which recovers the liquid discharged from the reactor.

The present invention provides a cold plasma ozone generator, comprising: an inlet gas port; at least one in-electrode, said in-electrode having a plurality of holes substantially at a perimeter of the same; said plurality of perimeter holes are in fluid communication with said inlet gas port, said plurality of perimeter holes configured to allow said dry gas to pass therethrough; at least one out-electrode, said out-electrode having at least one hole at the center of the same, said at least one hole configured to allow gas to pass therethrough; said in-electrode and said out-electrode configured to maintain said high voltage AC therebetween; at least one spacer between said in-electrode and said out-electrode, said spacer configured to maintain a constant-width gap between said in-electrode and said out-electrode; an outlet port.