Abstract: There is described a novel fluid treatment device that can induce Dean Vortices in the flowing fluid, and then induce a new set of Dean Vortices at an angle to those in the first set. Each subsequent curved section can induce vortices at an angle to those in the last curved section. This reactor has the effect of repeatedly twisting and splitting the fluid flow, resulting in targeted mixing similar to that of static mixers without the necessity of utilizing physical mixers. This is also an improvement over helical tubing configurations that generate only a single set of vortices and do not split and mix the flow.

Abstract: A turntable for ring photography is provided and includes a vacuum pump, a motor with a hollow shaft, an air hose connected between the vacuum pump and the hollow shaft, and a platter with a suction hole airtight communication with the hollow shaft. The suction hole provides a vacuum suction for ring standing when the vacuum pump is turned on. The platter brings the ring to rotate when the motor is turned on. A light box for ring photography is also provided and includes the foregoing turntable and a box. The box includes a base and the base has a top surface and an opening formed on the top surface. The vacuum pump is disposed under the top surface or outside the box. The motor is disposed under the top surface. The platter is embedded in the opening.

Abstract: A reactor that operates with ultraviolet light emitting diodes (UV-LEDs) to attain UV photoreactions or UV photo-initiated reaction in a fluid flow for various applications, including water purification. The UV-LED reactor is comprised of a conduit means for passing fluid flow, an ultraviolet light emitting diode (UV-LED), and a radiation-focusing element to focus the UV-LED radiation to the fluid in the longitudinal direction of the conduit. The UV-LED reactor may include photocatalysts or chemical oxidants, which are activated by UV emitted by UV-LEDs for photocatalytic and photo-initiated reactions.

Abstract: A method for disinfecting a fluid includes emitting UV light into a flowing fluid pillar along its axial direction. The flowing fluid pillar is surrounded by and in contact with a fluid medium having a refractive index lower than that of the fluid to be disinfected so that total internal reflection occurs when the UV light travels within the flowing fluid pillar. Also provided is a UV disinfector for disinfecting a flowing fluid.

Abstract: Described herein generally are sterilization devices that can allow sterilization of luminal connection ports. Methods of using these devices are also described.

Abstract: The present invention provides a method for performing a decomposition treatment on a VOC and/or a gas-phase inorganic reducing compound in a gas through ozone oxidation, by which further enhancement of efficiency in oxidative decomposition reaction by ozone is achieved, a decomposition treatment can be performed efficiently on a high-flow rate exhaust gas containing substances such as a VOC and a malodorous substance in low concentrations, and the amount of ozone to be used can be reduced in a method for performing oxidative decomposition treatment with ozone on a VOC and the like using a high silica adsorbent.

Abstract: Provided herein are methane conversion devices comprising a filter means (e.g., one or more filters), a circulation means (e.g., one or more circulating pumps), a reaction means (e.g., one or more reactor assemblies), a control means (e.g., central process unit, thermo-controller, UV controller, and the like), an energy supply means (e.g., ultra-violet lamp, direct sunlight, heating assembly, and the like).

Abstract: The disclosure provides a system and a method for reducing hazardous gases, including PHGs, through one or more photocatalysts in a filter system. A microstructure of the photocatalytic filter can be formed using biological systems as a template for the photocatalysts to be deposited thereon. The biological system can be removed by heat, oxidation, or by chemical processes to leave the photocatalytic template as a filter for the gases. In various embodiments, multiple photocatalysts can be activated at different wavelengths to filter different gases, or multiple photocatalysts can be activated at the same wavelength to filter different gases, or a photocatalyst can be activated at different wavelengths to filter different gases, or some combination thereof. The activation can be sequential or concurrent. For multiple layers of photocatalysts, the sequence of the photocatalysts can be arranged to reduce damaging output from an upstream photocatalyst to one or more downstream photocatalysts.

Abstract: Sanitizing surfaces in a location related to aircraft. There are multiple rows of seats. A sanitization device includes a mobile body configured to travel along the aisle of the aircraft. An arm extends from the sanitization device laterally from the mobile body across the seats, and a source of UV radiation mounted on the sanitization device is directed across the seats exposing surfaces in the passenger area to UV radiation. There is a data collector to collect information in the aircraft. A passive RFID tag mounted on elements can be read by an RFID reader. The device can include one or more sniffer cells for scanning the aircraft for unwanted or dangerous devices or chemicals.

Abstract: A system/method allowing personalized ex vivo customization of a generic ophthalmic lens blank (OLB) or ophthalmic lens with known diopter (OKD) based on localized field-measured patient characteristics is disclosed. The OLB is composed of an acrylic material that has been infused with an ultraviolet (UV) absorbing compound rendering it amenable to customized spatial modification (CSM) of its refractive index via the use of pulsed laser radiation (PLR). The CSM of refractive index eliminates the need for remote laboratory fabrication of a customized intraocular lens (IOL) for the patient. The OLB is retained within a secured lens container (SLC) providing for precise physical orientation of the OLB haptics and OLB lens structure with respect to the application of PLR to the OLB. The SLC contains a lens filler material (LFM) covering the OLB and is hermetically sealed after the OLB has been positioned within the SLC interior and prior to sterilization of the SLC+OLB combination.

Abstract: A map generator can be programmed to generate a multi-parameter graphical map by encoding at least two different physiological parameters for a geometric surface, corresponding to tissue of a patient, using different color components of a multi-dimensional color model such that each of the different physiological parameters is encoded by at least one of the different color components.

Abstract: A baby product sterilizer having a breast pump includes: a body having a cap disposed openably and closably on the front surface thereof and a plurality of ultraviolet lamps located at the inside thereof to sterilize and dry baby products accommodated therein; a cover located at outer surfaces of the body; and the breast pump disposed between the body and the cover in such a manner as to be controlled by a controller mounted on the cover.

Abstract: The present invention relates to methods for sterilizing active pharmaceutical ingredients, which may be micronized, using radiation.

Abstract: Methods, device, and computer program product for mitigating pathogen transmission via a touch surface of a touch input device. Mitigation is accomplished through selective touch surface sterilization and through touchscreen user interface reorganization. The touch surface includes a pixel array for illuminating selected portions of the touch surface with ultraviolet light of a sterilization wavelength based upon the received touch inputs. The selective illumination may occur while receiving a touch input or after an accumulation of touch inputs have been received. The user interface may also be reorganized based on received touch inputs in order to locate user interface icons to lesser touched locations of the touch surface.

Abstract: A self-disinfecting device includes a housing with translucent material and an internal light source that is used to reduce surface pathogens on the translucent material. The device includes a processor and a light source positioned within the housing. At least a portion of the housing is translucent to radiation, and the light source emits radiation at a wavelength and an intensity that kills pathogens residing on the outer surface of the housing.

Abstract: A variety of applications for UV LEDs that are integrated into a system are described, where the UV light is used for disinfection of air or surfaces, or used to detect the scattering light by particles, or used for skin treatment. In one embodiment, a ceiling luminaire includes a sensor for detecting the presence of people in the room. The luminaire contains a first set of LEDs for generating white light, for illumination, and a second set of LEDs for generating UV light for disinfecting the room. When the sensor detects that no people are in the room, the system automatically controls the UV LEDs to turn on to disinfect the room. The white light LEDs may be independently controlled with a dimmer.

Abstract: An ultraviolet (UV) footwear illuminator for footwear treatment is disclosed. In one embodiment, the UV footwear illuminator includes an insert adapted for placement in an article of footwear. At least one UV radiation source is located in the insert and is configured to emit UV radiation in the footwear through a transparent window region formed in the insert. A control unit is configured to control at least one predetermined UV radiation characteristics associated with the radiation emitted from each UV radiation source. A power supply is configured to power each UV radiation source and the control unit.

Abstract: This specification relates to a method for performing discovery in a wireless communication system. The method is performed by a first device, and includes turning on a direction-based discovery mode, obtains a first direction information related to a user from a second device, wherein the first direction information is information indicative of the progress direction of the user or the view direction of the user, exchanges a second direction information related to the locations of one or more peripheral devices with a third device, and performs discovery for a peripheral device existing in a specific direction among the peripheral devices based on the first direction information and the second direction information.

Abstract: A cleaning robot includes a chassis, a drive system connected to the chassis and configured to drive the robot, a signal generator and sensor carried by the chassis, and a controller in communication with the drive system and the sensor. The signal generator directs a signal toward the floor surface. The sensor is responsive to reflected signals from the floor surface. The controller controls the drive system to alter direction of the robot responsive to a reflected signal indicating an edge of the floor surface.

Abstract: Disinfection methods and apparatuses are provided which generate pulses of germicidal light at a frequency greater than 20 Hz and project the pulses of light to surfaces at least 1.0 meter from the disinfection apparatus. The pulses of light comprise a pulse duration and an energy flux sufficient to generate a power flux between approximately 200 W/m2 and approximately 5000 W/m2 of ultraviolet light in the wavelength range between 200 nm and 320 nm at the surfaces. Other disinfection methods and apparatuses are provided which generate pulses of light comprising germicidal light and visible light from a germicidal light source and generate pulses of light from a visible light source that is distinct from the germicidal light source. The projections of visible light from the light sources produce a continuous stream of visible light or a collective stream of visible light pulsed at a frequency greater than 60 Hz.

Abstract: This invention relates to a device for sanitising of medical instruments, in particular stethoscopes. In particular, this invention relates to a sanitisation or sterilisation device (1) for a stethoscope (S) comprising a case (2) that accommodates sanitisation or sterilisation means (3, 3?, 3?), a command and control unit (4) and a battery (5), said device (1) comprising means for coupling to the stethoscope (S) to be sanitised or sterilised, said coupling means being magnetic or electromagnetic coupling means (12), mechanical coupling means (13) or a combination of them, characterised in that said case (2) presents to the outside a recess which forms an inverted cone (11), the base of which is open and substantially at the level of the outer surface of the case (2), said sanitisation or sterilisation means (3, 3?, 3?) being arranged in correspondence to said cone (11).

Abstract: The present invention relates to a method and device for illuminating and at the same time purifying or disinfecting products such as air, flowers, food, vegetables, meat, poultry or fish. The method comprises the use of IR emitting LED elements.

Abstract: Techniques for automatically eradicating microorganisms (e.g., germs, bacteria, and/or viruses) from appliance handles using ultraviolet (UV) light are provided. In one aspect, a system for eradicating biological contaminants from a handle on an appliance door is provided. The system includes a UV light emitter for producing UV disinfecting light during a cleaning cycle; and a waveguide coating on the handle, coupled to the UV light emitter, for propagating the UV disinfecting light over a surface of the handle. The system can also include a control module for controlling the UV light emitter; and at least one sensor for providing data to the control module as to when to initiate or halt a cleaning cycle. A method for eradicating biological contaminants from a handle on an appliance door using the present system is also provided.

Abstract: An adhesive device with an ultraviolet element is disclosed. The adhesive device with an ultraviolet element can be used to provide a treatment of a surface of an object. The treatment can include cleaning, disinfection, sterilization and sanitization. The adhesive device with an ultraviolet element can also be used as a self-adhesive bandage.

Abstract: This disclosure provides methods and systems for mitigating pathogen transmission via a touch surface of a touch input device. Mitigation is accomplished through selective touch surface sterilization and through touchscreen user interface reorganization. The touch surface includes a pixel array for illuminating selected portions of the touch surface with ultraviolet light of a sterilization wavelength based upon the received touch inputs. The selective illumination may occur while receiving a touch input or after an accumulation of touch inputs have been received. The user interface may also be reorganized based on received touch inputs in order to locate user interface icons to lesser touched locations of the touch surface.

Abstract: A fluid treatment and disposal system includes a sink, having a basin, a sink drain inlet, and a sink drain trap. An open cavity is disposed behind a rearward wall of the sink basin, between a top portion of the sink and the sink drain trap. A curved transition surface receives fluid entering the sink. Embodiments of the drain are shaped to promote the evacuation of fluid from the basin while limiting turbulence. An exhaust port fluidly coupled with the open cavity evacuates the open cavity and surrounding environment. Embodiments optionally associate one or more of the following with the open cavity: Ultra-Violet (UV) Germicidal Lights, and Ozone water, copper-silver ionization, and/or sanitizing agent injection systems.

Abstract: Methods and systems for mitigating pathogen transmission via a touch surface of a touch input device. Mitigation is accomplished through selective touch surface sterilization and through touchscreen user interface reorganization. The touch surface includes a pixel array for illuminating selected portions of the touch surface with ultraviolet light of a sterilization wavelength based upon the received touch inputs. The selective illumination may occur while receiving a touch input or after an accumulation of touch inputs have been received. The user interface may also be reorganized based on received touch inputs in order to locate user interface icons to lesser touched locations of the touch surface.

Abstract: A modular photochemical reactor system having a plurality of fluidic modules each having i) a central planar process fluid layer and ii) two outer planar thermal control fluid layers for containing flowing thermal control fluid and a plurality of illumination modules, the illumination modules of the plurality each having a planar form with first and second major surfaces and each having at least a first array of semiconductor emitters, the emitters positioned to emit from or through the first major surface, wherein the first array of semiconductor emitters has at least a first emitter and a second emitter, the first emitter capable of emitting at a first center wavelength and the second emitter capable of emitting at a second center wavelength, the first and second center wavelengths differing from each other.

Abstract: The shoe sole sanitizer provides a UV radiation emitting system that kills microbial pathogens deposited on shoe sole surfaces. The system includes a housing containing at least one UV radiation source. Bottom and side portions of the housing are opaque to provide a UV shield while directing the UV upward towards a top housing portion. The top housing portion has a plurality of holes forming an approximate shape of two shoe sole bottoms. The holes allow the UV radiation to escape the housing and target sole surfaces disposed on and over the exterior of the housing top. Each shoe sole approximation area has a pivotal tang that extends therefrom. Shutters attached internally to the tangs extend or limit UV exposure from the top surface depending on the size of the sole disposed on the top. The system is powered by standard AC electrical power or battery sources.

Abstract: This disclosure provides methods and systems for mitigating pathogen transmission via a touch surface of a touch input device. Mitigation is accomplished through selective touch surface sterilization and through touchscreen user interface reorganization. The touch surface includes a pixel array for illuminating selected portions of the touch surface with ultraviolet light of a sterilization wavelength based upon the received touch inputs. The selective illumination may occur while receiving a touch input or after an accumulation of touch inputs have been received. The user interface may also be reorganized based on received touch inputs in order to locate user interface icons to lesser touched locations of the touch surface.

Abstract: A method and a system is provided for inactivation of Infectious Pancreatic Necrosis Virus (IPNV) comprising illuminating a liquid containing IPNV with a lamp emitting a continuous broad band of ultraviolet (UV) light. The UV lamp may be “tuned” to optimize IPNV inactivation. The lamp may be a medium pressure UV lamp that emits UV light having wavelength between 200-245 nm and preferably, between 200-220 nm. The pressure of the lamp may be greater than 1.6 bar, 3 bar and preferably is 7 bar. The lamp may be composed of PS (synthetic quartz).

Abstract: A sterilizer for point-of-sale credit card readers and keypads. One or more UV-C LEDs are integrated into the housing of the unit and directed at the keypad or other surface. The LED lights shine on the keypad or other contact surfaces, such as a stylus. Because LEDs use low DC voltage, the electronics may be powered by the keypad device power supply. The electronic circuits may be designed so that the LEDs are automatically turned on after each transaction is complete for a predetermined amount of time to kill the vast majority of pathogens that could be transmitted from person to person. The LEDs may be arranged on both the left and right side of the keypad, and at the top edge of the keypad to illuminate all exposed surfaces of the keys.

Abstract: According to one implementation an assembly is provided that includes a first and second optical fibers and a body that has respective first and second lumens in which at least a portion of the length of the first and second optical fiber reside. The first optical fiber is an end emitting fiber that is configured to end emit bacterial disinfecting light to disinfect at least a first portion of the body, and the second optical fiber is a radial emitting fiber that is configured to radially emit bacterial disinfecting light to disinfect at least a second portion of the body.

Abstract: Ultraviolet radiation is directed within an area. Items located within the area and/or one or more conditions of the area are monitored over a period of time. Based on the monitoring, ultraviolet radiation sources are controlled by adjusting a direction, an intensity, a pattern, and/or a spectral power of the ultraviolet radiation generated by the ultraviolet radiation source. Adjustments to the ultraviolet radiation source(s) can correspond to one of a plurality of selectable operating configurations including a storage life preservation operating configuration, a disinfection operating configuration, and an ethylene decomposition operating configuration.

Abstract: Ultraviolet radiation is directed within an area. The target wavelength ranges and/or target intensity ranges of the ultraviolet radiation sources can correspond to at least one of a plurality of selectable operating configurations including a sterilization operating configuration and a preservation operating configuration.

Abstract: A fluid filtration apparatus, which includes a plurality of optical fibers each having a length, wherein one or more of the plurality of optical fibers exhibits frustrated total internal reflection, thereby emitting light along the length of one or more of the optical fibers, in combination with a photocatalyst disposed on the plurality of optical fibers and a light source interconnected to the plurality of optical fibers.

Abstract: The present invention relates generally to an advanced oxidation process for providing advanced oxidation products to an environment. More particularly, the present invention provides a device, system, and method utilizing an advanced oxidation process to react with and neutralize compounds in an environment, including microbes, odor causing chemicals, and other organic and inorganic chemicals. The device, system, and method of the present invention employ a wick structure to collect and concentrate water vapor, so that the water vapor may subsequently be used to generate advanced oxidation products.

Abstract: A photocatalytic device has an ultraviolet light source and a plurality of photocatalytic structures, such as hydrated metallic catalyst surfaces. One or more catalyst substrates are adapted to support a hydroxyl radical reaction with ultraviolet light and water vapor that results in hydro peroxides and hydroxyl ions; an ultraviolet light source provides ultraviolet light to the catalyst substrates. The catalyst substrates comprising a hydrated multi-metallic catalyst having two or more elements or compounds selected from the group: Titanium dioxide, Titanium Platinum, Gold, Silver, Copper, Rhodium, Ruthenium, Lanthanum, Carbon, and Fluoride. In different embodiments, various combinations of these elements or compounds may be used in the catalyst, such as a combination of five or more of the elements or compounds.

Abstract: Ultraviolet radiation is directed within an area. The target wavelength ranges and/or target intensity ranges of the ultraviolet radiation sources can correspond to at least one of a plurality of selectable operating configurations including a sterilization operating configuration and a preservation operating configuration.

Abstract: An ultraviolet (UV) footwear illuminator for footwear treatment is disclosed. In one embodiment, the UV footwear illuminator includes an insert adapted for placement in an article of footwear. At least one UV radiation source is located in the insert and is configured to emit UV radiation in the footwear through a transparent window region formed in the insert. A control unit is configured to control at least one predetermined UV radiation characteristics associated with the radiation emitted from each UV radiation source. A power supply is configured to power each UV radiation source and the control unit.

Abstract: Provided herein are ultraviolet (UV) devices, systems, and methods for UV disinfection and sterilization, more specifically, UV devices, systems, and methods for UV disinfection and sterilization of a container, room, space or defined environment. The systems, UV devices, and methods are particularly useful for the UV disinfection and sterilization of a container used in the food and dairy industry and for containers used in the process of fermentation for an alcoholic beverage. Provided are also UV devices, systems, and methods for inhibiting the growth of one or more species of microorganisms present in a container, room, space or defined environment, preferably for inhibiting the growth of one or more species of microorganisms present on an interior surface of a container, room, space or defined environment.

Abstract: A Sterilization Unit includes: a UV-C radiation source configured to emit UV-C radiation; and a room partition selectably configurable between two or more different partition geometrics and configured, in each of the two or more different partition geometrics, to (a) physically separate floor space of a room into sterilization target area and a non-target area, and (b) direct the UV-C radiation to the target area from at least two different directions while shielding the non-target area from the UV-C radiation.

Abstract: A UV and visible light transparent film material is secured onto or within a touch-based screen to automatically disinfect the external surface. UV light is emitted from a UV light source into an edge of the transparent film material in order to transfer the UV light through the transparent film material while remaining in the transparent film material through total internal reflection effect. Some UV light exits the transparent film material at points of contact to disinfect fingertips and immediate surrounding areas through the frustrated total internal reflection effect.

Abstract: Systems and methods for monitoring ultraviolet (UV) light exposure in an environment are disclosed herein. The methods include detecting a UV light intensity within an environment at a plurality of spaced apart node locations and calculating a UV light intensity map based upon the UV light intensity at the plurality of spaced apart node locations. The systems include a distributed UV light exposure monitoring system that includes a plurality of UV detection nodes, a receiver, and a data analysis system. Each of the plurality of UV detection nodes includes a UV sensor configured to detect a UV light intensity at a node location and a transmitter configured to generate a UV intensity signal that is indicative of the UV light intensity. The data analysis system is programmed to calculate a UV light intensity map of the environment.

Abstract: An apparatus for sterilizing articles comprises a body extending between first and second ends having a bottom surface and defining an interior cavity into the bottom surface thereof and an ultraviolet light source located in the interior cavity. The apparatus further includes a power source operably connected to the ultraviolet light source and at least one proximity sensor disposed along the bottom surface adapted to sense proximity of the bottom surface to an object, wherein the at least one proximity sensor is adapted to permit ultraviolet light source to be illuminated only when the bottom surface is proximate to the object.

Abstract: Disclosed herein is a method of radiation sterilizing a plurality of medical devices.

Abstract: Devices and methods for defining a data set, referred to herein as a signature, for a particular device having interior channels. A baseline signature is established for the particular device while the particular device is known to be in a decontaminated condition. After use of the device and subsequent decontamination of the device, a signature for the particular device is determined and compared with the baseline signature to verify that the latter signature is within an acceptable range.

Abstract: An ultraviolet irradiation device that is used for a fluid to be irradiated having a low ultraviolet ray transmissivity, a spirally wound tube in which the fluid to be irradiated flows is supported and fixed, and an irradiation amount of ultraviolet rays with which the fluid is irradiated is increased. A tube 3 having ultraviolet ray transmitting property is spirally wound on an outer circumferential surface of a support pipe 5, a plurality of ultraviolet lamps 7 are disposed around an axis of the support pipe apart from the tube, an inner case 9 that supports the support pipe and that encloses the plurality of ultraviolet lamps is provided, and a fluid flows in the tube and is irradiated with ultraviolet rays. The tube which is a fluid channel is thereby fixed to the support pipe, so that breakage of the tube and the ultraviolet lamps 7 can be prevented.

Abstract: Methods for pathogen reduction in donor blood are performed by exposure of blood to UVC irradiation. Unwanted wavelengths of light, mostly in the infrared spectra, may be precluded from reaching blood by providing a layer of IR-absorbing fluid positioned between blood and the source of UV irradiation, whereby minimizing energy absorption and heating of blood. Some embodiments further disclose utilizing the same IR-absorbing fluid to actively cool blood by flowing the IR-absorbing fluid along the blood flow path.

Abstract: An environmental evaluation installation including an evaluation chamber 1 isolated from outer space by isolation walls 2, minute substance supply means 3 configured to supply a microorganism into the evaluation chamber 1, a minute substance removing means 4 configured to supply removal particles for removing the microorganism into the evaluation chamber 1, and a minute substance collecting means 5 configured to collect the microorganism in the evaluation chamber 1, and which is characterized in that many air supply holes 21 are provided for almost the whole surfaces of the isolation walls 2 except at least the floor surface of the isolation walls 2 and that air is made to flow into the evaluation chamber 1 from the air supply holes 21.