A stacked-block system for generating a plasma discharge in liquid includes a liquid inlet block including a liquid inlet disposed tangentially relative to a sidewall of the liquid inlet block in order to generate a vortex liquid flow in an interior space of a stacked-block reactor, a top block disposed over the liquid inlet block, the top block including a liquid outlet disposed at a center of the top block, the liquid outlet including a center tube extension of the liquid outlet into the interior space of the reactor, at least one spacer block disposed under the liquid inlet block, and a ground electrode in fluid communication with the interior space of the reactor, the ground electrode being in direct contact with the at least one spacer block. A high-voltage electrode block disposed coaxially with a central axis of the reactor at a bottom side of the reactor is included.
A flow-through fluid treatment system for generating a plasma discharge in a fluid includes a high-voltage electrode forming a fluid inlet into a cylindrical flow-through reactor, the fluid inlet having an inlet inner diameter, a ground electrode forming a fluid outlet out of the cylindrical flow-through reactor, the ground electrode and the high-voltage electrode disposed coaxially across a gap between the electrodes in a cylindrical flow-through reactor space, a gas inlet into the cylindrical flow-through reactor, disposed tangentially in an interior wall of the cylindrical flow-through reactor to generate a vortex gas flow within the cylindrical flow-through reactor space, thereby generating a negative gauge pressure within the fluid inlet, and a high-voltage power supply electrically connected to the high-voltage electrode for generating a plasma discharge across the gap, thereby producing plasma treated fluid.
A water treatment system includes a venturi injector including a venturi inlet that intakes water to be treated, a venturi throat including an orifice in fluid communication with a gas source, a discharge electrode integrated into a gas inlet in fluid communication with the orifice for generating a plasma discharge, thereby producing treated water, and a venturi outlet that discharges the treated water.
A system for generating a plasma discharge in liquid utilizes first and second electrodes spaced apart in an interior space of a vessel holding the liquid. A channel can be defined in certain embodiments at least partially by at least one of the first and second electrodes, and an inlet in fluid communication with the interior space is configured to generate a vortical fluid flow in the vessel. A method for generating a plasma discharge in liquid is also provided. A high voltage electrode for generating a plasma discharge in liquid that includes a central solid cylindrical rod is also provided.
A water treatment system includes a venturi injector including a venturi inlet that intakes water to be treated, a venturi throat including an orifice in fluid communication with a gas source, a discharge electrode integrated into a gas inlet in fluid communication with the orifice for generating a plasma discharge, thereby producing treated water, and a venturi outlet that discharges the treated water.
2 in fluid communication with the water, such that the water flows through the porous metal surface area of the HV electrode, a ground electrode disposed across a gap from the HV electrode, in fluid communication with the water, a high voltage power supply electrically connected to the HV electrode for generating spark plasma or pulsed electric fields having a rise time equal to or less than 60 nanoseconds (ns) and an amplitude greater than or equal to 30 kV/cm across the gap, thereby producing treated water, and a water outlet that discharges the treated water.
A water treatment system includes an adsorption column including granular activated carbon (GAC) that adsorbs contaminants from untreated water onto the GAC, thereby producing treated water, a first electrode disposed at a proximal side of the adsorption column, with a gap between the first electrode and the GAC, a second electrode disposed at a distal side of the adsorption column, a drain outlet in fluid communication with the adsorption column for draining water out of the adsorption column, a gas inlet in fluid communication with the adsorption column for injecting a displacement gas into the adsorption column, a high voltage power supply electrically connected to one of the first electrode and the second electrode for generating a plasma discharge within the GAC, thereby regenerating the GAC within the adsorption column, and a gas outlet in fluid communication with the adsorption column for venting waste gas produced by the plasma discharge.
B01J 20/20 - Solid sorbent compositions or filter aid compositionsSorbents for chromatographyProcesses for preparing, regenerating or reactivating thereof comprising inorganic material comprising free carbonSolid sorbent compositions or filter aid compositionsSorbents for chromatographyProcesses for preparing, regenerating or reactivating thereof comprising inorganic material comprising carbon obtained by carbonising processes
B01D 15/20 - Selective adsorption, e.g. chromatography characterised by constructional or operational features relating to the conditioning of the sorbent material
A system for generating a plasma discharge in liquid utilizes first and second electrodes spaced apart in an interior space of a vessel holding the liquid. A channel can be defined in certain embodiments at least partially by at least one of the first and second electrodes, and an inlet in fluid communication with the interior space is configured to generate a vortical fluid flow in the vessel. A method for generating a plasma discharge in liquid is also provided.
A system for the plasma treatment of a liquid is described. The system includes a storage chamber containing a liquid and a head-space, a gas source connected to a sparger positioned within the liquid, a pair of electrodes positioned within the liquid and substantially above the sparger, a microbubble generator positioned within the liquid, and a conduit between the head-space and the microbubble generator, such that gas from the head space can travel through the conduit to the microbubble generator. Also described is a method of plasma treating a liquid. The method includes the steps of positioning a liquid in a storage chamber at a volume that provides a head-space in the storage chamber, feeding a gas to a sparger that is positioned within the liquid to form a first set of bubbles in the liquid, passing the first set of bubbles between a pair of electrodes positioned within the liquid and substantially above the sparger, generating a plasma discharge between the electrodes, and feeding the gas in the head-space into a microbubble generator positioned within the liquid to form a second set of bubbles in the liquid, wherein the second set of bubbles are in the range of 0.1 to 5 microns in diameter.
A system and method for stretching the discharge of plasma in a liquid utilizes in certain embodiments a first, second and third electrode within a liquid holding container, a gas injection conduit for introducing a gas such as air or oxygen into the container, and a power supply electrically coupled to at least the second and third electrodes. In certain embodiments, a seed plasma generated by a first and second electrode is stretched, and a larger plasma is generated by a first and third electrode. In certain embodiments, a fourth electrode can be used to further stretch the plasma. An increase in gas introduction flow rate can also be utilized to facilitate the stretching of plasma.
C02F 1/461 - Treatment of water, waste water, or sewage by electrochemical methods by electrolysis
C02F 1/46 - Treatment of water, waste water, or sewage by electrochemical methods
C02F 103/10 - Nature of the water, waste water, sewage or sludge to be treated from quarries or from mining activities
C02F 103/36 - Nature of the water, waste water, sewage or sludge to be treated from the chemical industry not provided for in groups from the manufacture of organic compounds