Abstract: The invention relates to a filter element and filter system for filtering a fluid. The filter element (10) includes at least one, in particular flat filter bellows (12) made of a filter medium (14) having an intended raw side (52) and an intended clean side (50) situated opposite thereof. A flatly affixed sideband (28) is disposed at the front faces (16, 17, 18, 19) surrounding the filter bellows (12). A circumferential seal (32) is disposed at an outside of the sideband (28). The sideband (28) has a flap (36) projecting over the clean side (50) of the filter bellows (12), the flap (36) being arrangeable at the front faces (16, 17, 18, 19) in a V-shaped back-folded manner over the seal (32).

Abstract: The present invention relates to a device for indoor air purification and sterilization which excites indoor air by arc discharge to decompose bad odor and sterilize air, wherein an excited state is maintained by applying a magnetic field and the contact time between molecules activated by arc and pollutants is extended, thereby improving air purification and sterilization effects, and the noise generated by arc discharge is reduced by a silencer and ozone and static electricity are removed by a filter which removes ozone and a metal filter for removing static electricity, respectively, thereby enabling very suitable configuration for indoor air purification and sterilization.

Abstract: A method of generating ozone containing fluid comprising: drawing atmospheric air into an air compartment, generating ozone within the air compartment from air in the air compartment by conversion within the compartment of oxygen in the air within the compartment into ozone to form ozonated air, discharging the ozonated air from the air compartment, mixing the ozonated discharged air with a flowable fluid to form an ozonated fluid-air mixture, and passing the ozonated fluid-air mixture out a discharge outlet. Preferrably the method is carried out in a dispenser utilizing a piston pump to draw air through a corona discharge ozone generator and to draw liquid from a liquid reservoir and simultaneously pass both the ozonated air and liquid through a foam generator to generate foam.

Abstract: A plurality of power-supply devices, in which power generated by solar energy is stored, are allowed to exchange power among themselves. Power generated by a solar panel connected to a first power-supply device is stored in a power storage section of the first power-supply device. Power supplied by the second power-supply device, which has a power storage section for storing power generated by the solar panel, is stored in the power storage section of first power-supply device. Power stored in the power storage section of the first power-supply device is supplied externally.

Abstract: A sterilization, sanitization and/or decontamination device 1 comprising at least a humidifier unit, an ozone generator unit 60, at least one discharge outlet 16 and a controller for controlling the humidifier and ozone generator units, the at least one discharge outlet 16 comprising at least two at least partially converging plates 72, 74 between which substances are discharged.

Abstract: A dielectric assembly for generating ozone includes a positive electrode, a negative electrode, a dielectric for generating the ozone, and a knob adapted to extend outside of a housing into which the dielectric assembly is to be placed. A system is also provided for sanitizing and deodorizing water, food, surfaces and air including a microbiological reduction filter device having an input connected to a water supply, a venturi injector disposed within a housing and connected to an output of the microbiological reduction filter device which generates ozone and mixes the generated ozone with the water, and an electrode assembly comprising a plurality of electrodes, a dielectric for generating the ozone, and a knob extending outside of the housing. The dielectric in a first embodiment and the entire dielectric assembly in a second embodiment can be removed from the housing and replaced in its entirety by the knob.

Abstract: A device for sterilizing an ice machine using ozone gas from an electrolytic ozone generator includes a pure water tank (2), a pure water refilling device (1), and the electrolytic ozone generator (3). The pure water tank (2) is connected to a gas-feeding solenoid valve (4) and a gas-discharging solenoid valve (5). The gas-discharging solenoid valve (5) is connected to a reducing carbon tank (6), which is connected to a vent (10). The gas-feeding solenoid valve (4) is connected to a tee pipe (11-4) of the ice machine (11). The tee pipe (11-4) is connected to a water pump (11-2) in an ice-machine water tank (11-1) and an ice-machine evaporator (11-3) through loop piping. A controlling circuit board (7) is connected to power source (8), and further connected to the electrolytic ozone generator (3), the gas-feeding solenoid valve (4), the gas-discharging solenoid valve (5), and a motherboard (11-6).

Abstract: A method for generating a non-thermal plasma having predetermined ozone concentration includes: providing an at least approximately closed volume as a reaction region; activating a plasma source and generating a non-thermal plasma in the reaction region. The plasma is held in the reaction region at least until a predetermined ozone concentration is reached or the ozone concentration falls below a predetermined upper limit for the ozone concentration.

Abstract: A purification apparatus includes an ultraviolet lamp (41) emitting an ultraviolet ray with a wavelength having ozone generating effect and an ultraviolet ray with a wavelength having sterilizing effect and an accommodator (43) accommodating the ultraviolet lamp (41) in an accommodation space thereinside. The accommodator (43) includes a transmission portion transmitting the ultraviolet ray with a wavelength having sterilizing effect. A gas supplied from an oxygen introducing portion (50) into the accommodation space contains oxygen. Thus, ozone is generated in the accommodation space due to the ozone generating effect of the ultraviolet ray emitted by the ultraviolet lamp (41). The ozone generated in the accommodation space is exhausted from an ozone exhausting portion (51).

Abstract: A gaseous fluid-operated ozone supply unit includes a housing, output duct, ozone generator, air induction member and controller. The air induction member is located between the air inlet portion and ozone generator of the housing. The output duct has a coupling end and an extension end. The coupling end is connected with the ozone outlet, while the extension end is extended to a preset target for the ozone. The preset target must he capable of guiding the stream so that the output duct could generate negative pressure. The ozone supply unit provided enables to control ozone's opening and closing state through air-operated negative pressure. The ozone supply unit can maintain the flow rate and smoothness of the water supply passage, so as to remove impurities and dirt in water and prevent blocking or even disabling of active magnetic inductor for improved applicability and ease of operation.

Abstract: A system employs a closed electrolyzer vessel into which water is circulated, and an electrode plate assembly is immersed to dissociate water into hydrogen and oxygen gases. Only water is used as the electrolyte fluid. An air injector in the water return line injects air bubbling for enhanced dissociation of water. The electrode plate assembly is formed by one or more unit stacks of 7-plates each, including two outer cathode plates, a middle anode plate, and spaced inner plates. The generated gases are maintained in a stable condition by an electromagnetic coil assembly that separates the hydrogen gas from oxygen gas. The system can obtain 180% reduction in fuel usage in a vehicle engine, and 20 times reduction in carbon exhaust. It can obtain a 500% increase in fuel efficiency in an electrical power generator.

Abstract: A particulate matter control system includes: an electrode that is provided in an exhaust pipe of an internal combustion engine; a power supply that is connected to the electrode and that applies voltage; a particle number detecting unit that detects the particle number of particulate matter on a downstream side of the electrode; a calculation unit that calculates a reduction rate of the particle number at the time when voltage is applied on the basis of the particle number detected by the particle number detecting unit at the time when voltage is applied and the particle number detected by the particle number detecting unit at the time when no voltage is applied; and a determination unit that determines that there is a failure when the reduction rate of the particle number, calculated by the calculation unit, is smaller than a threshold.

Abstract: A method for producing ozone for use in ozonolysis reactions. Oxygen is separated from the mixture of ozone and oxygen from an ozone generation unit and is fed back to the oxygen feed to the generation unit. Nitrogen is fed to the ozone separation unit and the mixture of nitrogen and ozone is fed to the ozonation reactor where the ozone will react with organic compounds to produce desired end products.

Abstract: The present invention describes a method and an automatic system for recovering protein powder meal, crude and pure omega-3 oil and purified distilled water from a mixture of animal tissue processed in a filter-drier-reaction tank. Animal tissue, for example fish, and organic solvent are directly or indirectly fed into the filter-drier-reaction tank. The filter-drier-reaction tank mixes, heats, and separates solid and heavy liquid portions of the mixture, the organic solvents are automatically recycled back in to the system after distillation. The solid portion is retained in the filter-drier-reaction tank and baked. Solid protein powder product (the protein powder meal) is thus recovered.

Abstract: Methods and systems for treating cooling water of a retort are described. The methods and systems generate an aqueous ozone solution and combine the aqueous ozone solution with the cooling water. The methods and systems provide a safe, economical, easy to handle, and environmentally friendly solution for maintaining a retort cooling water system. The systems and methods herein remove contaminates from the cooling water, supply a continuous sanitizer created on-site, reduce the need for additional chemicals, and reduce the labor costs attributed to maintaining the retort cooling water system.

Abstract: A dielectric assembly for generating ozone includes a positive electrode, a negative electrode, a dielectric for generating the ozone, and a knob adapted to extend outside of a housing into which the dielectric assembly is to be placed. A system is also provided for sanitizing and deodorizing water, food, surfaces and air including a microbiological reduction filter device having an input connected to a water supply, a venturi injector disposed within a housing and connected to an output of the microbiological reduction filter device which generates ozone and mixes the generated ozone with the water, and an electrode assembly comprising a plurality of electrodes, a dielectric for generating the ozone, and a knob extending outside of the housing. The dielectric in a first embodiment and the entire dielectric assembly in a second embodiment can be removed from the housing and replaced in its entirety by the knob.

Abstract: A portable gas transfer device for sterilization at a sterilization site includes: a housing; a pressurized gas canister held by the housing; a first passageway in fluid communication with the pressurized gas canister and configured to supply pressurized pre-sterilization gas from the pressurized gas canister to the site; a gas discharge canister held by the housing; and a second passageway in fluid communication with the gas discharge canister and configured to supply post-sterilization gas from the site to the gas discharge canister. Additional related devices, systems and methods are provided.

Abstract: A sterilization system uses an ozone-air mixture for treatment of a water-intake finger and an air space of a water source bottle of a water dispenser in which the bottle is installed with its neck downwards for discharge. The system includes a cone for holding the bottle vertically, the water-intake finger for water delivery from the bottle into a reservoir, an ozone generator, and a control device. Two longitudinal channels in the water-intake finger separately deliver water from the bottle into the reservoir and ozone-air mixture delivery into the bottle. The water-intake finger has a preventive cup, to prevent air penetration into the bottle from the air space of the reservoir, having an inlet channel connected to the generator for ozone-air mixture delivery into the preventive cup during water off-take from the reservoir when water poured out of the bottle is replaced with the ozone-air mixture delivered from the generator.

Abstract: A method of removing contaminates from sour water is provided. The method includes producing raw sour water within a syngas production system, and removing the contaminates from the raw sour water using a chemical reaction within a treatment unit to produce treated sour water. The treatment unit is in flow communication with the syngas production system.

Abstract: An ozone laundry system and its method of use with continuous batch or tunnel washers is provided, wherein ozone can be injected into a plurality of different chambers along the continuous batch or tunnel washer and wherein the interfacing of a plurality of system controls occurs on a centralized HMI controller along with DOM and ORP monitoring. Vacuum sensors over vacuum switches are used to compensate for a slightly positive pressure at the ozone outlet, due to a long tube run with a weak vacuum.

Abstract: The invention relates to improvements in surface disinfection apparatus and methods and in particular to apparatus and methods which may be used to disinfect wounds using high concentration aqueous ozone. The method comprises the steps of flushing an ion exchange means with fluid from a fluid supply and directing the flushing fluid to waste; de-ionising fluid from the fluid supply by passing it through the ion exchange means and directing the process fluid to storage means; and purging the ion exchange means with gas to remove residual process fluid after the de-ionisation process has been completed.

Abstract: A plant for oxidization using ozone and the abatement thereof, which can be used to decontaminate by means of oxidization objects contained in an oxidization treatment cell, comprises an ozone generator fed in input by a stream of air, an ozone abatement cell disposed downstream of the oxidization treatment cell in order to receive the stream of ozone which passes into the oxidization treatment cell before being discharged into the environment, and a heat pump-which cooperates on one side with the oxidization treatment cell and on the other side cooperates with the abatement cell.

Abstract: A system and method for removing contaminants from a gas stream is provided. The method can include the steps of reacting the gas stream with ozone to form solid contaminant particles and separating the solid contaminant particles from the gas stream. The solid contaminant particles can he separated from the gas stream using an adsorption material.

Abstract: An apparatus and method of producing an atmospheric non-equilibrium plasma (ANEP) in a sealed container having a selected working gas and an object to be treated is described. A variety of working gas mixtures including air, O2, N2, CO2, He and Ar, in combination with a range of ionization gradients, voltages and ANEP column lengths was investigated so as to establish effective ranges of the variables using the sterilization of a sample as a measure of effectiveness. Certain combinations of working gas, voltage gradient, voltage and ANEP column length were found to have greater effectiveness. The approach may be used for food products, medical equipment, or other objects where treatment with reactive gas atmospheres is effective.

Abstract: The present invention generally relates to water disinfection systems for use in dental operatory settings. In particular, a dental water disinfector is described, wherein the dental water disinfector is configured to purify water used during a dental procedure. In preferred embodiments of the present invention, the dental water disinfector is utilized to eliminate bacterial contaminants present in water supplies utilized by dental drills and irrigation equipment.

Abstract: A portable ozonation apparatus for storing and purifying liquids includes a container having an opening for receiving a liquid and a treatment cap. The treatment cap is preferably detachably mounted to the container at the opening. Preferably, the treatment cap includes a main body portion having provided therein an electricity generating device and an ozone generating device. With this arrangement, un-purified liquid, such as water, is introduced into the container. The container is then inverted to bring the un-purified liquid into contact with the ozone generating device. At this point, the electricity generating device is activated to deliver an electrical current to the ozone generating device. Once powered, the ozone generating device produces ozone which is introduced into the liquid container. The ozone gas transforms un-purified liquid into a purified liquid suitable for consumption.

Abstract: A method and system for cleaning lignin and other gums from lignocellulosic fiber is disclosed. Lignocellulosic fiber is rapidly depressurized to a pressure lower than atmospheric pressure. The fiber is exposed to ionized air during the rapid depressurization. The fiber is then repressurized to a pressure equal to or greater than atmospheric pressure.

Abstract: Food handling facilities such as meat packing, plants, dairies, kitchens and the like are disinfected using a disinfecting atmosphere which includes ozone and hydrogen peroxide, at a relative humidity of at least 60%.

Abstract: An apparatus for disinfecting and/or deodorizing an article comprises a cabinet defining a compartment configured to receive the article. A regenerative dryer is positioned with respect to the compartment and is configured to dehydrate air flowing into an ozone generator. The ozone generator is in communication with the dryer and is positioned with respect to the compartment. The ozone generator is configured to selectively generate ozone. The generated ozone is introduced into the compartment. An ozone conversion device is positioned with respect to the compartment and is configured to selectively convert ozone back to oxygen. A controller is configured to selectively activate the dryer, ozone generator and ozone conversion device.

Abstract: Retrofit apparatus for retrofitting an ozone generator to a spa, hot tub, recreational fountain, or similar facility, and a method for treating biofilms therein, are disclosed. Fittings inserted into water and air circulating lines associated with such water holding facilities, and covers provided over inlets, generally inject, retain, and concentrate ozonated gas in such lines, especially while they are not filled with water. In some embodiments, an ozone-providing plug is provided to at least one water outlet of a spa or hot tub, with other outlets being blocked. In some embodiments, covers for suction inlets, and plugs for water jets, have features to provide ozone to water circulation lines when not filled with water as well as when the tub is filled and water is circulating. In some embodiments, plugs for water jets are ejected and subsequently provide ozone to water circulating in a tub.

Abstract: The disclosed device and method produce high concentration ozonated water by connecting a high concentration ozone gas-supplying system that comprises an ozone gas-generating unit (1) for forming ozone gas, an ozone gas-concentrating unit (2) for concentrating the ozone gas formed, a concentrated ozone gas-pressurizing unit (3) for pressurizing the concentrated ozone gas output from the ozone gas-concentrating unit (2), and a cooling mechanism (13) for cooling the concentrated ozone gas-pressurizing unit (3), to an ozone gas-dissolving unit (4) to dissolve the high pressure, concentrated ozone gas in pure water and produce the high concentration ozonated water.

Abstract: A portable gas transfer device for point-of-use sterilization at a sterilization site includes: a housing; a pressurized gas canister held by the housing; a first passageway in fluid communication with the pressurized gas canister and configured to supply pressurized pre-sterilization gas from the pressurized gas canister to the site; a gas discharge canister held by the housing; and a second passageway in fluid communication with the gas discharge canister and configured to supply post-sterilization gas from the site to the gas discharge canister. Additional related devices, systems and methods are provided.

Abstract: The output wavelengths of an electrodeless lamp are controlled by passing a fluid over the surface of the lamp to control its temperature. The stabilized temperature prevents thermal runaway of the lamp and stabilizes the output wavelengths of the lamp. When the fluid passing over the lamp is water, the lamp can be used for sanitary treatment of the water. Lamp radiation can be enhanced by shaping the electrodeless lamp to provide maximally effective photonic output.

Abstract: A system and method for removing contaminants from a gas stream is provided. The method can include the steps of reacting the gas stream with ozone to form solid contaminant particles and separating the solid contaminant particles from the gas stream. The solid contaminant particles can he separated from the gas stream using an adsorption material.

Abstract: Nanodiamond material containing carbon, hydrogen, nitrogen and oxygen characterized by the absence of sp2 carbon phase based on X-ray photoelectron spectroscopy analysis and containing more than approximately 11 wt % of oxygen and demonstrating a pH approximately below 2.5 when dispersed in an amount of 10 wt % in deionized water. This abstract is not to be considered limiting, since other embodiments may deviate from the features described in this abstract.

Abstract: A system and methods for sanitation of ice storage equipment. An ozone generator provides a sanitizing agent comprised of a mixture of ambient air and ozone. The sanitizing agent is circulated through an ice storage bin. The sanitizing agent cleanses interior surfaces of the ice storage bin and also cleanses surfaces of an ice dispenser that dispenses ice from the ice storage bin.

Abstract: An ozone device for deodorizing dresses within a closet, includes an ozone generator. The ozone generator includes a casing formed with first and second ventilation vents, an ozone producing element installed within the casing for generating ozone in order to deodorizing dresses within the closet, a circulating fan installed within the casing for circulating ozone generated by the ozone producing element, and a hanging unit projecting outward from the casing and adapted to be hung onto a suspension member. The closet is sleeved over and cooperates with the casing to define a sealed chamber so that dresses can be kept therein.

Abstract: The present invention relates to an apparatus for sterilization of various microbes including toxic biological agents, by abundantly producing the acidic ozone water that very effectively kills spores of Bacillus atrophaeus. The sterilization effectiveness of the acidic ozone water is due to synergic benefits derived from the combination of ozone and acidity in water. The acidic ozone water produced from the apparatus of the present invention can effectively kill most of the microbes of viruses, bacteria, and fungi, hence being applicable to agriculture, seafood and livestock industries for the preservation of various products as well as being useful in hospitals or other germ infested areas for disinfections. After the decontamination process, the acidic ozone water produced from the apparatus of the present invention disintegrates into water and oxygen without any trace of harmful materials to the environment.

Abstract: An apparatus for generating ozone inside packaged articles comprises an electrode assembly in which coplanar electrodes are supported along a contact surface. The electrodes are solid state conductive electrodes. These electrodes may be interdigitated and/or arranged with uniform spacing therebetween along a portion of their length. Where the electrodes are straight they may be parallel, but other shapes can also be evenly spaced. In some examples the electrodes are partially insulated and partially exposed. In some examples the electrodes are embedded/potted in an insulator to exclude air spaces from around the electrodes.

Abstract: A sterilization system consisting of a mobile emitter, a sensing subsystem and a data logging subsystem is described. The emitter has one or more UV emitting lamps or devices. The sensing system comprises at least one remote UV sensor and at least one door sensor. The door sensor comprises a safety shut off door detector and may contain an emergency stop detector and arming detector to protect people from being exposed to UV energy. The system has a remote control for starting, stopping and setting system parameters which include but are not limited to: treatment time, dosage, room size, room number, unit number, floor, facility name, operator name, operator identification number, password, default dosage values, dosage, and patient identification number. The number of treatments per unit of time can be maximized because of the use of incident light measurement.

Abstract: A beverage dispenser has a simple configuration that prevents invasion of bacteria into a tank or a raw water container. An air intake 13 is provided on the top of a cold tank 4 so that air is taken in as the water level in the tank is lowered, and an air chamber 14 having an air inlet 16 for the outside air is connected to the air intake 13. In the air chamber 14, an ozone generator 15 generating ozone from oxygen in the air from the air inlet 16 is provided so that bacteria included in the air from outside is killed in the air chamber 14 connected to the air intake 13 by the excellent bactericidal effect of ozone. Invasion of bacteria into the tank or the raw water container is thus prevented with this simple configuration.

Abstract: An assembly and method for treating or otherwise improving an atmosphere contained within an enclosed space. The enclosed space can be a container such as a bag or other housing for equipment, food and/or suitable material. Ozone is generated within an atmosphere that is exposed to the material. The generated ozone is mixed with the atmosphere. At least a portion of the generated ozone is then removed from the mixed atmosphere. The assembly and method can be used to treat contaminated sports equipment and the like, as well as to treat food storage atmospheres, such as those exposed to fresh fruits and vegetables.

Abstract: A sterilisation, sanitisation and/or decontamination device 1 comprising at least a humidifier unit, an ozone generator unit 60, at least one discharge outlet 16 and a controller for controlling the humidifier and ozone generator units, the at least one discharge outlet 16 comprising at least two at least partially converging plates 72, 74 between which substances are discharged.

Abstract: A plasma generating apparatus comprises a first, powered electrode and a second electrode structure located in front of the first electrode. An insulating layer is interposed between the first electrode and the second electrode structure. The second electrode structure has a plurality of second electrode portions defining gap portions therebetween. The width of the gap portions is w. The second electrode portions each have a forward surface and the gap portions each having a forward surface, the height difference between the forward surface of each second electrode portion and the forward surfaces of the adjacent gap portions being h, and wherein h is at most 1 mm and the ratio w/h is at least 1. Thus, the forward surfaces of the second electrode portions and the forward surfaces of the gap portions together provide a smooth topography. The plasma generated by the apparatus (in air or other oxygen-containing gas) forms ozone, which can be used to treat foodstuffs, for example.

Abstract: A system and method for removing contaminants from a gas stream is provided. The method can include the steps of reacting the gas stream with ozone to form solid contaminant particles and separating the solid contaminant particles from the gas stream. The solid contaminant particles can be separated from the gas stream using an adsorption material.

Abstract: An ozone supply module for supplying ozonated water to an appliance that typically includes: an appliance module housing having a water inlet; a water outlet; and an electrical connection for receiving electrical power; a proton exchange membrane cell positioned within the housing; and a water conveying system within the module housing and operably connected to both the water inlet and water outlet. The water conveying system is typically configured to allow water to flow through the deionizing resin and into contact with the proton exchange membrane cell. The module and the proton exchange membrane cell receive electrical power from a home appliance when the module is operably connected to the appliance. The module produces water that contains (dissolved) ozone to be delivered to a chamber within the appliance when the module is in the engaged position with the appliance. The appliance is typically a residential appliance.

Abstract: A portable fluid ozonation apparatus includes a container for treating and storing fluid, a filter that attaches to the container and an ozone generator. In use, a fluid is dispensed into the container and optionally passed through the filter. At this point, power is supplied to the ozone generator which operates for a period of time necessary for disinfecting the fluid. Additives and post filters can be utilized in conjunction with the ozonation apparatus in order to obtain sufficient purified fluid within a short time frame.

Abstract: The present invention is a portable ozone gas generating device that include one or more transformers that generate a plurality of high levels of ozone gas to eradicate a plurality of pests, odors and undesired microorganisms, one or more generator cells that are utilized by the device to eradicate the plurality of pests and undesired microorganisms and an ozone hose or other conduit that directs air that is forced across the generator cell. The device also includes a blower that is a powerful high volume high pressure blower, turbine or fan that provides power to the directed ozone air required to positively pressurize a structure to eradicate the plurality of pests, odors and undesired microorganisms, a large diameter flexible undegradable ozone rated hose and a filtration system and an adjustable disposable aperture airlock that connects the structure with the device.

Abstract: An apparatus for sterilising a packaged product (16) such as food or drink comprises a pair of gas filled electrodes (1, 2) connected to a power supply (18) for generating a high voltage pulses between the electrodes (1, 2) sufficient to ionise the gas therein and to create a high electromagnetic field therebetween. A reflector (7) is provided for directing the generated field towards the package (16), such that the electromagnetic field penetrates through the wall of the package (16) and forms cold plasma from the trapped air inside the package (16). This cold plasma comprises ozone and other reactive oxygen based species which have a high oxidising potential and kill all micro organisms in contact with the ozone and reactive species resulting in the disinfection of the product as well as the interior of the sealed package.

Abstract: An ozone generating system includes a water reservoir for accepting water from a water source, such as an inverted water bottle or a point of use water source. Once delivered to the reservoir, water therein may be dispensed for human consumption. An ozone generator produces ozone and such ozone is delivered to water within the reservoir through an ozone diffuser connected to the ozone generator and positioned within the water reservoir at a central bottom location. The water reservoir includes a cover which is sealed closed to prevent release of generated ozone into the atmosphere. Filter means, such as an active carbon filter, is provided which captures and neutralizes excess ozone within the reservoir. Preferably, the ozone generator is mounted inside of the dispenser, either above the water reservoir or below the water tank, inside of the cooler cabinet.