Abstract: Provided is a spinning disc with plasma discharges for the treatment of liquid. In one configuration, plasma is introduced to the surface of a liquid by a point-plane discharge, dielectric barrier discharge or as a plasma jet. This liquid exists as a thin film on the surface of the spinning disc. The thin liquid layer, as well as the enhanced mixing provided by the spinning disc, allow the plasma generated radicals to more easily interact with the contaminant.

Abstract: An annular bubbling electric discharge reactor for treating water includes a non-conductive pipe having a top and a bottom with a gas sparger installed within the non-conductive pipe and positioned adjacent the bottom and adapted to generate bubbles or foam and control the bubble size formation. A high voltage electrode is fixed concentrically within the non-conductive pipe and a ground electrode is fixed at an intermediate position within the non-conductive pipe and in circumferential relation to the high voltage electrode with an annular space defined between the ground electrode and high voltage electrode. A liquid inlet and a liquid outlet are provided to allow polluted liquid/water into the reactor and discharge treated liquid/water therefrom. A circuit and power supply are provided for generating an electrical discharge between the high voltage electrode and ground electrode, thereby creating a plasma generation region where the liquid is treated.

Abstract: An electrical discharge plasma reactor system for treating a liquid, the reactor system including: a reactor chamber configured to hold the liquid and a gas; a discharge electrode disposed within the reactor chamber, wherein the discharge electrode is disposed within the gas; an opposing electrode disposed within the gas within the reactor chamber; one or more gas diffusers disposed within the liquid, wherein the one or more gas diffusers is configured to induce the generation of a layer of foam on a surface of the liquid in a plasma-contact region; and a power supply connected to the discharge electrode and/or the opposing electrode, the power supply configured to induce the discharge electrode and the opposing electrode to generate plasma in the plasma-contact region.

Abstract: An electrical discharge plasma reactor system for treating a liquid, a gas, and/or a suspension. The reactor system includes a reactor chamber configured to hold the liquid and a gas, a discharge electrode disposed within the gas of the reactor chamber, a non-discharge electrode disposed within the liquid, a gas diffuser disposed within the liquid and configured to induce the generation of a layer of foam on the surface of the liquid in a plasma-contact region, and a power supply connected to the discharge electrode and configured to induce the discharge electrode to generate plasma in the plasma-contact region.

Abstract: An electrical discharge plasma reactor system for treating a liquid, the reactor system including: a reactor chamber configured to hold the liquid and a gas; a discharge electrode disposed within the reactor chamber, wherein the discharge electrode is disposed within the gas; an opposing electrode disposed within the gas within the reactor chamber; one or more gas diffusers disposed within the liquid, wherein the one or more gas diffusers is configured to induce the generation of a layer of foam on a surface of the liquid in a plasma-contact region; and a power supply connected to the discharge electrode and/or the opposing electrode, the power supply configured to induce the discharge electrode and the opposing electrode to generate plasma in the plasma-contact region.

Abstract: An electrical discharge plasma reactor system for treating a liquid, a gas, and/or a suspension. The reactor system includes a reactor chamber configured to hold the liquid and a gas, a discharge electrode disposed within the gas of the reactor chamber, a non-discharge electrode disposed within the liquid, a gas diffuser disposed within the liquid and configured to induce the generation of a layer of foam on the surface of the liquid in a plasma-contact region, and a power supply connected to the discharge electrode and configured to induce the discharge electrode to generate plasma in the plasma-contact region.

Abstract: An electrical discharge plasma reactor system for inactivating one or more pathogens in a liquid. The reactor system includes a reactor chamber configured to hold the liquid, a silver discharge electrode and a non-discharge electrode disposed within the reactor chamber such that the two electrodes are in spaced, conductive communication when the liquid is inside the reactor chamber, and a power supply connected to at least one of the discharge and non-discharge electrodes and configured to induce the discharge electrode to generate plasma to at least partially inactivate one or more pathogens in the liquid.