Abstract: A clean air supply apparatus is provided which has an ability of sterilizing effectively and uniformly also a secondary side surface of a filter. The apparatus has a pre-filter 23 for roughly filtering air sequentially introduced from an air inlet port 18 for introducing air to an air supply port 22 for sending clean air to a work environment, a blower 24 for sucking air to the introduced, a heater 25 for adjusting a temperature of introduced air, a chemical agent gas supply apparatus 27, a chemical agent gas eject apparatus 26 for supplying chemical agent gas into the air path, high performance filters or ultrahigh performance filters 41 and 42 for filtering air to be delivered from an air supply port 22 to generate clean air.

Abstract: A chemical cartridge for a blower-type chemical diffusing apparatus includes a chemical-impregnated body including an air-permeable and liquid-absorptive sheet impregnated with a chemical, and a retainer receptacle for containing the chemical-impregnated body. The retainer receptacle includes a liquid pool recess formed at a central area thereof such that liquid chemical stored in the liquid pool recess is permeable towards a peripheral area of the sheet.

Abstract: A filter (100) comprising at least one antibacterial layer (101) consisting of nano-silver particles and at least one ultraviolet photocatalytic layer (102).

Abstract: The present disclosure relates to purification and/or sterilization techniques and devices. Methods and systems are provided herein for removing contaminants from air using a combination of an ionic liquid and a reactive oxygen species.

Abstract: A process has been developed to selectively dissociate target molecules into component products compositionally distinct from the target molecule, wherein the bonds of the target molecule do not reform because the components are no longer reactive with each other. Dissociation is affected by treating the target molecule with light at a frequency and intensity, alone or in combination with a catalyst in an amount effective to selectively break bonds within the target molecule. Dissociation does not result in re-association into the target molecule by the reverse process, and does not produce component products which have a change in oxidation number or state incorporated oxygen or other additives because the process does not proceed via a typical reduction-oxidation mechanism. Target molecules include ammonia for waste reclamation and treatment, PCB remediation, and targeted drug delivery.

Abstract: The present invention describes methods and systems for extracting, capturing, reducing, storing, sequestering, or disposing of carbon dioxide (CO2), particularly from the air. The CO2 extraction methods and systems involve the use of chemical processes. Methods are also described for extracting and/or capturing CO2 via exposing air containing carbon dioxide to a solution comprising a base—resulting in a basic solution which absorbs carbon dioxide and produces a carbonate solution. The solution is causticized and the temperature is increased to release carbon dioxide, followed by hydration of solid components to regenerate the base.

Abstract: Apparatus suited for removing carbon dioxide from gases are disclosed. The apparatus may employ bodies having a photocatalytic film. Associated methods and compositions are also disclosed.

Abstract: An ozone converter that includes an outer housing having an inlet and an outlet is disclosed. In this embodiment the ozone converter includes a core disposed within the outer housing and a bypass cylinder disposed between the inlet and the outlet and that passes through the core such that air within the bypass cylinder does not contact the core. The ozone converter of this embodiment also includes a blocking sleeve that surrounds a portion of the bypass cylinder and that is moveable from a first position to a second position. When the bypass sleeve is in the first position air that enters in the inlet is directed by the blocking sleeve into the bypass cylinder and when it is in the second position air that enters the inlet is allowed to enter an outer passage between the bypass cylinder and the outer housing.

Abstract: A scent dispersing device for use with an artificial tree having a hollow trunk, the device comprising a disk comprising a container for housing a replaceable fragrance cartridge and an energizable heater in communication with the cartridge. When the heater is energized, the cartridge emits a fragrance through openings in the disk. The invention comprises a motorized fan, such that when the fan operates, air is forced into the hollow trunk and through at least one disk located at the bottom or between sections of the assembled trunk and fragrance is forced through openings in the disk or holes in the trunk. The invention includes a tree stand that houses a fan, lighting, and audio each wired to a control panel and timer connected to an energy source.

Abstract: Methods and apparatuses are described for contacting an oxidizing solution such as an aqueous hydrogen peroxide composition of hydrogen peroxide and at least one additive that catalyzes the decomposition of the hydrogen peroxide into hydroxyl radicals with an atmospheric effluent containing odorous and/or noxious components. These components are absorbed by the aqueous hydrogen peroxide composition to produce an atmospheric effluent having reduced amounts of the odorous and/or noxious components. Various methods are described for adding the hydrogen peroxide and the decomposition additive.

Abstract: A method for removing the human scent and any other scent that is not advantageous to the environment you are in from clothing and equipment used by sportsmen by the use of gaseous ozone or hydroxyl and hydroperoxide ions. The gas is applied directly or indirectly to the clothing, equipment and body while the hunter is in the field and/or prior to or after the hunt. The method can also be used by fishermen to eliminate fish odor. The method of delivering a gas in compressed/generated form from a container.

Abstract: An ultraviolet flux multiplying air sterilization chamber comprises inner surfaces having a diffuse reflective behavior. The sterilization chamber includes an inlet aperture and an outlet aperture for air to flow through said chamber and a light source emitting an ultraviolet light. Due to the reflectivity of the inner surfaces of the chamber, a flux of the ultraviolet light is multiplied by reflecting multiple times from the inner surfaces of the chamber. The inlet and outlet apertures are advantageously configured to reduce the amount of light that escapes from the chamber and increase the amount of photons available in the chamber. In an exemplary embodiment, perforated end panels having diffuse, reflective interior surfaces may be provided over at least a portion of the inlet and outlet apertures.

Abstract: An air decontamination device comprises an air stream generator (20), a non-thermal plasma filter (22), an ultraviolet (UV) radiation emitting device (24), an ozone catalyzing device (26), and a hydrocarbon emitter (28). The air stream generator (20) generates and directs an air stream through or across the non-thermal plasma filter (22), the UV radiation emitting device (24), the ozone catalyzing device (26), and the hydrocarbon emitter (28). The plasma filter (22) produces free radicals by which contaminants in the air stream are neutralized. The UV radiation emitting device (24) breaks down ozone in the air stream, catalyzed by the ozone catalyzing device (26). The hydrocarbon emitter (28) discharges an aromatic hydrocarbon into the air stream to preferentially react with residual ozone so that the air stream becomes suitable for human exposure. A method is also provided.

Abstract: A combined hydrocarbon/ozone converter includes a substrate, a metal oxide washcoat and a hydrocarbon converting catalyst, such as platinum. The metal oxide washcoat comprises an ozone reacting component, such as cobalt oxide, and a non-catalytic component, such as aluminum oxide. The weight ratio of the hydrocarbon converting catalyst to the ozone reacting component may be between about 1:5 and about 1:100.

Abstract: A system and method of removing odors by adsorbing steam vapor and exhausting the odors by generating a forcible flow is provided. The system may include a rotatable drum for receiving items to be deodorized, a steam generator for supplying steam to the drum, and a passage for generating a forcible flow through the drum. The method may include adsorbing steam generated by the steam generator by the items to be deodorized, and exhausting the adsorbed steam using the forcible flow through the drum.

Abstract: A scent pod for scenting the air and methods of use. A scent pod comprises a container having a base and at least one sidewall, wherein a majority of the base and the at least one sidewall is formed of plastic having a thickness of at least 0.1 millimeters. A scented wax inside the container comprises a fragrance and a first temperature at which the scented wax liquefies and evaporates fragrance. The scent pod warmer generates heat at a second temperature hot enough to completely liquefy the scented wax in less than three hours, and the plastic for the container comprising a plastic having a heat deflection temperature high enough to withstand the heat generated by the scent pod warmer without deforming.

Abstract: A CO2 control device and method for capturing CO2 from fluid flow, including: a flow-through apparatus and an CO2 absorbing filter treated with an alkaline material which is housed within the flow-through apparatus. The flow-through apparatus receives fluid flow and the CO2 from the fluid flow is absorbed by the CO2 absorbing filter. The absorbed CO2 is converted into CaCO3 which is combined with volcanic ash to form a useful cement material.

Abstract: A modular germicidal light grid system for use inside an air treatment apparatus that has a plenum in which a stream of air is enclosed. The system comprises at least one elongate member and at least one lamp assembly. Each lamp assembly comprises a housing defining at least one socket and is mounted to one elongate member at a predetermined position. The system further comprises at least one linear germicidal light source. Each light source has a longitudinal axis and a distal end constructed and arranged to mount within one socket of the housing. The elongate member is mounted within the plenum and the lamp assembly is mounted to the elongate member such that the longitudinal axis of the light source extends therein the stream of air and is positioned at an acute light angle relative to the direction of flow of the stream of air.

Abstract: Systems, devices, methods, and compositions that improve the scent perception for a user. Improved scent perception is achieved by presenting alternating scents and by varying levels of output of scents, as well as by minimizing device clogging, thereby improving evaporation profiles.

Abstract: An air-purifying module in which a heater heats a filter unit to purify air, wherein the filter unit includes an inorganic coating having air pores, and a catalyst layer formed by impregnating a portion or the entirety of the inorganic coating with a catalyst mother liquid. An air-purifying module may include an air-permeable filter unit; and a heater. An inorganic coating having a plurality of air pores is formed on the surface of the filter unit, and the filter unit has a catalyst layer formed by impregnating a portion or the entirety of the inorganic coating with a catalyst mother liquid, wherein the filter unit enables air to initiate a catalytic reaction with the catalyst layer under a predetermined temperature condition such that the air can be purified. The heater heats the filter unit such that the filter unit is maintained at said predetermined temperature condition.

Abstract: A decontamination arrangement is disclosed for use in pharmaceutical applications. The decontamination arrangement includes a space to be decontaminated, which may be an isolation space, and a cleaning device designed for extracting gaseous and/or vaporous decontaminants, in particular hydrogen peroxide, from the air in the space. The cleaning device is configured so that the air in the space circulates through it by means of at least one fan. A method for removing gaseous and/or vaporous decontaminants from a space is also disclosed.

Abstract: An ozone-based system and method for eliminating odors from wastewater in a well produces an oxygen-enriched and controllably produces ozone using an ozone generator operably coupled to a programmable logic controller. In sparging mode the system supplies the oxygen enriched gas to the well. In ozonation mode the oxygen-enriched gas is used to produce ozone and the ozone is supplied to the injection port. The PLC reduces the amount of ozone produced by the ozone generator if the ozone measured at the reaction chamber outlet is not less than a setpoint amount. The reaction chamber contains a baffled reticulate interior channel causing gasses flowing therethrough to flow in opposite directions in traveling from the inlet to the outlet of the reaction chamber. The system is devoid of any fan or pump in the reaction chamber.

Abstract: A system of odor control comprising a combination pack which functions as a chamber for human odor adsorption wherein a connected or detachably securable flexible funnel may be stowed, stored, deployed and/or used independently further comprising a detachably securable odor adsorption means, a detachably securable odor filtering means, a pocket, a fastening means and a vent located about one or more portions of said pack and/or said flexible funnel wherein said product may be located about the user and/or used to surround a portion or substantially all of a user while hunting to reduce odor that would normally alert game. One or more vents may be adjustable and used to regulate airflow and/or allow the user to enter, exit, or expose a portion of the user or the user in entirety and/or an item from the flexible funnel at a desirable moment of activity.

Abstract: An on-demand portable chlorine dioxide generator has a reagent bound medium in a first enclosed volume; a complementary reagent solution in a second enclosed volume, and a structure for selecting between a first position where the complementary reagent solution is forced through the reagent bound medium and a second position where said complementary reagent solution remains isolated from the reagent bound ion exchange medium, where a ClO2 solution is generated only during periods when the structure for forcing is actuated. The ClO2 solution can be discharged for use as a portable sprayer that can be used to treat surfaces infected by anthrax or other biological contaminants. When the bound reagent is chlorite, the complementary reagent is an acid or an oxidant. When the bound reagent is an acid or an oxidant, the complementary reagent solution is a chlorite solution.

Abstract: A method and device for cleaning air. The air to be cleaned is directed as a continuous flow in succession through a) a first zone wherein the air is treated with ozone and possibly also water, ammonia or other aerosol growth promoters; b) a second zone wherein the air is subjected to ultraviolet light; c) a third zone wherein the air is maintained for a sufficient time to allow aerosol growth; d) a fourth zone where particles in the air are given an electrical charge; e) a fifth zone wherein the air is passed through an electrostatic filter; and f) a sixth zone wherein the air flows over a catalyst to break down residual ozone.

Abstract: Compositions and methods for reducing or eliminating malodors from air and surfaces in contact with air within indoor environments are described. One method provided is for the reduction or elimination of malodors from air and surfaces in contact with air within an indoor environment using hydrogen peroxide in the vapor phase generated and passively emitted from pH neutral to mildly acidic aqueous-based liquid compositions. A second method is provided for the reduction or elimination of malodors from air and surfaces in contact with air within an indoor environment using hydrogen peroxide in the vapor phase as sublimed from solid compositions containing at least one pH neutral to mildly acidic solid hydrogen peroxide-containing compound.

Abstract: An electronic incense assembly includes a first tube, a second tube, a light source, two electrodes, and two wires. The first tube includes a first opaque coating on the outer surface thereof, a first end, and a second end. The first tube defines a first through hole. The second tube includes a second opaque coating on the outer surface thereof and defines a second through hole. The second end of the first tube is sleeved on the second tube. The first through hole communicates with the second through hole. The light source is positioned on the first end and covers the first through hole. The two electrodes are received in the second tube but extend across and out of the second tube. The two wires connect the light source to the two first electrodes.

Abstract: In order to provide a plasma sterilization apparatus with high plasma generation efficiency, the apparatus includes first and second electrodes (3, 2), a first dielectric body layer (1), and an insulating spacer (6). The first dielectric body layer (1) is disposed between the first and second electrodes (3, 2). The insulating spacer (6) is disposed between the first electrode (3) and the first dielectric body layer (1). The insulating spacer (6) has a lower permittivity than a permittivity of the first dielectric body layer (1).

Abstract: The present invention relates to odor control systems and more particularly to a system and method for treating air to remove odors and return the treated air to the atmosphere. In one embodiment, an odor control system includes an ionization assembly, which has several ionizers producing an ionized air flow. The system also includes a foul air intake providing a foul air flow, such as from a wastewater treatment or other processing plant. The system also includes a reaction chamber, which provides a reaction volume for reaction of the foul air flow and the ionized air flow. The ionized air reacts with constituents in the foul air to treat the foul air for release of treated air to the environment.

Abstract: A nitric oxide delivery system, which includes a gas bottle having nitrogen dioxide in air, converts nitrogen dioxide to nitric oxide and employs a surface-active material, such as silica gel, coated with an aqueous solution of antioxidant, such as ascorbic acid. A nitric oxide delivery system may be used to generate therapeutic gas including nitric oxide for use in delivering the therapeutic gas to a mammal.

Abstract: Air freshener products and methods for freshening air are disclosed. In some embodiments, the air freshening product may include a container for storing an air freshening composition that may contain compressed gas such as compressed air, nitrogen, nitrous oxide, inert gases, or carbon dioxide. When the container is completely filled with propellant and air freshening composition, the air freshening composition may be released from the container at a flow rate of from about 0.8 grams/second to about 1.5 grams/second, wherein the mean particle size of the released spray droplets is from about 10 microns to about 100 microns. The method of freshening air, in certain embodiments, provides improved delivery of an air freshening composition using a non-hydrocarbon propellant. If malodor counteractants are used, the method may also provide a reduction in malodors.

Abstract: The objective of the invention is to provide an odor neutralizer that targets the source of odor-causing molecules, capturing and channeling them to a filter, and preventing escape of odor. Current technology does not target the odor source, and odor-causing molecules escape into uncontaminated air or are mixed with other smells, causing unpleasantness and/or embarrassment or even indignity. Targeting the odor source, my invention, the Flatch Evac, is designed to eliminate odors and harmful gases at the source.

Abstract: A unique combination of male and female gas connectors for one way transfer of gasses.

Abstract: An air sterilizer that operates by electro-kinetic conversion of energy is provided. The sterilizer can have an electro-kinetic converter, rows of needles fastened along support plates, and neutralizing electrodes. The converter can have a rectangular frame with two armatures joined by electrically insulating transverse plates. The armatures can be provided on one of the margins with a row of rectangular notches, equally-spaced with a constant pitch. In the notches, the ion-generating electrodes can be introduced. On their opposed margin, the plates can be interleaved at the same pitch and with V-shaped openings where the neutralizing electrodes can be introduced. The electrodes can be affixed by insulating covers, in the shape of the letter U. Each cover can be elastically deformable. The power supply can derive from an impulse generator with sufficient voltage to form an intense electric field which can ionize surrounding air and create a plasma zone.

Abstract: A method and an apparatus are provided for deodorizing and disinfecting air and droplets from urinal, toilet bowl, and other receivers and holders of urine and fecal matter. The apparatus comprises a housing (1) having an air inlet (2) and air outlet (3), wherein the housing (1) encloses a droplet removal chamber (4) for removing droplets from airflow; a deodorization and disinfection chamber (5) for removing air contaminants in the airflow; and an delivery unit (6) for airflow generation. Being actively drawn into the apparatus, air contaminants such as odor, bacteria and virus are removed without discharge of contaminated air and causing secondary pollution. The apparatus and method provide odorless and comfortable environment and avoid disease transmission in both public and domestic toilets.

Abstract: A method for purifying polluted air having particle phase pollutants and gaseous phase pollutants is provided. The method comprising: separately purifying and treating particle phase and gaseous phase pollutants present in the air; providing a dust cleaning apparatus, a catalytic filter core and a valve for controlling an airflow path within an air purification apparatus; controlling the airflow path for the air to bypass the catalytic filter core in a way that: if the amount of particle phase pollutants is above a predetermined value, the valve is moved to the open position to enable the air to bypass the catalyst filtering core; if the amount of particle phase pollutants is less than a predetermined value, the valve is moved to the closed position to force the air to pass through the catalyst filtering core.

Abstract: The present invention relates to a method of deactivating an antigenic substance by causing positive and negative ions to act on the antigenic substance, and the positive and negative ions are caused to act in an atmosphere in which each of positive ion concentration and negative ion concentration is at least about 50,000/cm3, and more preferably, at least about 100,000/cm3.

Abstract: The present invention provides a method and apparatus for controlling a concentration of descenting particles within a temporary structure. The temporary structure comprises a plurality of sidewalls and a roof interconnecting the sidewalls. A plurality of selectively openable and closeable upper windows and lower vents are disposed in the sidewalls. The lower vents are disposed at a location below the upper windows. An ozone generator is disposed within and coupled to the temporary structure to produce descenting particles that are controlled within a hunting zone of the temporary structure to be between about 0.04 and 0.1 ppm.

Abstract: A deodorizing apparatus for deodorizing the ambient air, which is taken through an intake port by a blower, while cyclically supplying powdery activated carbon which serves as a deodorizing powder body to a deodorizing section comprises an auxiliary filtering section having a bag filter section which is fitted to the deodorizing section.

Abstract: A photocatalytic structural member is provided with a substrate having a concave-convex structure formed on a surface thereof, and a photocatalyst film which is disposed on a side of the concave-convex structure of the substrate and reflects a shape of the concave-convex structure. The concave-convex structure is formed with a pitch smaller than a wavelength of light which causes a photocatalytic reaction on the photocatalyst film. A deodorizing device is provided with the photocatalytic structural member, a light source which emits the light from a side of the substrate to the photocatalytic structural member, and a fan which causes an air to flow to the photocatalytic structural member.

Abstract: A nitric oxide delivery system, which includes a gas bottle having nitrogen dioxide in air, converts nitrogen dioxide to nitric oxide and employs a surface-active material, such as silica gel, coated with an aqueous solution of antioxidant, such as ascorbic acid. A nitric oxide delivery system may be used to generate therapeutic gas including nitric oxide for use in delivering the therapeutic gas to a mammal.

Abstract: A complex metal oxide catalyst having a composition including about 5 to about 75 wt % of manganese (Mn); about 5 to about 55 wt % of copper (Cu); and about 3 to about 60 wt % of an active compound, based on a total weight of the complex metal oxide catalyst. The complex metal oxide catalyst has excellent low-temperature activity and improved catalyst efficiency so as to be repeatedly used, and thus is effectively used in a filter module and an air cleaner.

Abstract: Inhalation of low levels of nitric oxide can rapidly and safely decrease pulmonary hypertension in mammals. A nitric oxide delivery system that converts nitrogen dioxide to nitric oxide employs a surface-active material, such as silica gel, coated with an aqueous solution of antioxidant, such as ascorbic acid.

Abstract: Systems and methods utilizing water-vapor-partial-pressure-differential across a chemically-selective membrane to remove water vapor from a habitable spacecraft environment(s). The system preferably utilizes heat from an exothermic CO2 removal process to prevent condensation at the chemically-selective membrane.

Abstract: A system and a method are provided for removing greenhouse gases, particulates and pollutants from the atmosphere utilizing a greenhouse gas collection apparatus. An atmospheric mixture is collected and progressively treated in first, second and third tube furnaces and a scrubber to produce an effluent for treatment in a chemical processing plant. The first tube furnace oxidizes hydrocarbons, the second tube furnace oxidizes any remaining nitrous and nitric oxides, and the third tube furnace oxidizes sulfur dioxide. The scrubber precipitates carbon dioxide as calcium carbonate. A vacuum pump draws the atmospheric mixture through tube furnaces and the scrubber.

Abstract: A nitric oxide delivery system, which includes a gas bottle having nitrogen dioxide in air, converts nitrogen dioxide to nitric oxide and employs a surface-active material, such as silica gel, coated with an aqueous solution of antioxidant, such as ascorbic acid. A nitric oxide delivery system may be used to generate therapeutic gas including nitric oxide for use in delivering the therapeutic gas to a mammal.

Abstract: A process has been developed to selectively dissociate target molecules into component products compositionally distinct from the target molecule, wherein the bonds of the target molecule do not reform because the components are no longer reactive with each other. Dissociation is affected by treating the target molecule with light at a frequency and intensity, alone or in combination with a catalyst in an amount effective to selectively break bonds within the target molecule. Dissociation does not result in re-association into the target molecule by the reverse process, and does not produce component products which have a change in oxidation number or state incorporated oxygen or other additives because the process does not proceed via a typical reduction-oxidation mechanism. Target molecules include ammonia for waste reclamation and treatment, PCB remediation, and targeted drug delivery.

Abstract: A method of use of an ionic liquid for sorption of a gas having an electric multipole moment is provided, wherein the ionic liquid comprises an anion and a non-aromatic cation. In particular, the electric multipole moment may be an electric dipole moment and/or an electric quadrupole moment. The sorption may be an adsorption or an absorption. The ionic liquid may be a pure ionic liquid, i.e. a liquid substantially only containing anions and cations, while not containing other components, e.g. water. Alternatively a solution containing the ionic liquid and a solvent or further compound, e.g. water, may be used.

Abstract: Systems and methods for using a scent elimination device to conceal contraband and then training service animals to determine if an ozone-based scent-removal technique has been used to remove scent from contraband are disclosed. The systems and methods comprise providing a plurality of packages. At least one of the plurality of packages containing a predetermined amount of a contraband substance. Further, the systems and methods comprise generating a gaseous stream of descenting material from a portable device. The gaseous stream of descenting material contains ozone. Further, the systems and methods comprise dispersing the gaseous stream of descenting material over the contraband in a concentration sufficient to eliminate the scent. The descented contraband may be placed in an enclosure for transport. Further, the systems and methods comprise introducing a service animal to the plurality of packages.

Abstract: The present invention is directed to a deodorant/fragrant device with reduced adsorption of the fragrance and other ingredients contained in a fragrant liquid, having both excellent deodorizing function and perfuming function, wherein a fragrant liquid contained in a container is absorbed by a wick and the fragrant liquid absorbed is volatilized and released from the container through a volatilizing material placed in contact with the wick, wherein a zinc compound is carried on the volatilizing material.