The present invention relates to a filter medium (10) for air and/or water cleaning, comprising a semiconductor photocatalytic material (14) and a light energy source (15) for radiating light provided to activate photocatalytic reactions of the semiconductor photocatalytic material (14). The light energy source (15) is configured as a support (16) for the semiconductor photocatalytic material (14). The filter medium (10) can be incorporated into a filter unit (100).

A system including a tube for transferring fluid and a lighting assembly. The lighting assembly includes a housing having an opening that is configured to receive the tube and one or more light sources configured to emit high intensity narrow spectrum light in a direction towards the tube when the tube is received by the opening.

A system including a tube for transferring fluid, a fiber optic cable that extends through an interior of the tube, and a light source configured to project high intensity narrow spectrum light into the fiber optic cable.

A mobile sterilization assembly, a mobile sterilization device, and method for sterilization using a mobile sterilization device are described for providing a low-cost and compact sterilization system using an ultraviolet light-emitting diode for sterilization. In an implementation, a mobile sterilization assembly includes a sterilization assembly couplable to a mobile device with a controller, the sterilization assembly including at least one light dispersive element; and an optical coupler configured to couple the at least one light dispersive element to a mobile device; where the at least one light dispersive element at least one of transmits and disperses light from at least one light-emitting diode or transmits light to a photodiode, where the at least one light-emitting diode or the photodiode are configured to be communicatively coupled to the controller.

A self-cleaning ultraviolet wastewater disinfection unit and method are provided. The disinfection unit has a wastewater treatment chamber comprising a UV lamp for treating/disinfecting the wastewater. A plurality of pieces of media may be positioned in the treatment chamber. When wastewater is present in the chamber, gas is injected into the wastewater through a gas inlet conduit. The gas agitates the pieces of media in the wastewater to cause the pieces of media to rub against the UV lamp unit to remove matter that has accumulated on the UV lamp unit. The removal of accumulated matter on the UV lamp and other surfaces in the chamber may improve the efficiency and effectiveness of the disinfecting unit. Furthermore, the cleaning operation may be performed automatically at scheduled periods to increase the time between major cleanings of the unit.

An ultraviolet C (UV-C) disinfection device includes a UV-C light-emitting diode (LED) illuminator which includes a UV-C source module and a UV-C LED coupling module. The UV-C source module includes a heat spreader and a UV LED chip that is mounted on the heat spreader which is configured to be mounted on a printed circuit board (PCB). The UV-C LED coupling module includes a holder and a rod configured to carry a UV-C light emitted from the UV-C LED chip from a first distal end of the rod to an opposite second distal end of the rod such that the UV-C light gets leaks out from a side of the rod to deliver at least a portion of the UV-C light to a surrounding of the rod, with the rod secured with the holder positioning the rod onto the UV-C chip.

A photoreactor including a reservoir configured to hold water, the reservoir defining an inlet and an outlet, and a multiplicity of optical fiber assemblies positioned in the reservoir. Each optical fiber assembly includes one or more optical fibers coated with a composition comprising a photoresponsive polymer and a light source optically coupled to the one or more optical fibers. The photoresponsive polymer undergoes a change from an initial state to an irradiated state when irradiated with light from the light source, and photoresponsive polymer in the irradiated state is adapted to bind an ion from the water.

UV light disinfecting system where UV light is distributed along the walls of a highly reflective tube. In some embodiments, the UV light disinfecting system is flexible. In at least one embodiment, the UV light disinfecting system includes at least one UV-LED positioned external to a highly reflective tube. In exemplary embodiments, the reflective tube includes a plurality of openings that are arranged so as to position each opening adjacent to a corresponding UV-LED such that UV light generated by the corresponding UV-LED is able to pass through the opening and into the reflective tube. The UV light is scattered along the length of the reflective tube to prevent or eliminate the presence of biofilms as well as to disinfect, sterilize, and purify and pathogens within the tube. Methods to mitigate the growth of biofilms in a water conduit is also provided.

A reacting canister utilizing transparent optical fiber technology coated with a photo-catalyst and a plasmonic layer, including yttrium aluminum garnet nanoparticles, disposed between the optical fiber and the photo-catalyst to degrade off-flavor compounds in aquacultured aquatic life. The degradation of off-flavored compounds—including 2-methylisoborneol—can be significantly enhanced by increasing the surface area of the catalyst. Coating individual transparent optical fibers and aligning those fibers in a canister configuration allows the treatment of large volumes of water in portable and scalable reactors. Once the fluid is treated, the fluid is returned to the reservoir containing the aquacultured aquatic life.

A sterilization device includes: a processing chamber in which a fluid passing through a straightener flows in a first direction, the straightener being provided at an inlet of the processing chamber; a plurality of light emitting devices arranged in an array on a plane facing the straightener in the first direction, sandwiching the processing chamber, and irradiating the fluid in the processing chamber with ultraviolet light; a light source chamber that houses the plurality of light emitting devices inside; and a discharge path provided to the side of the light source chamber and allowing the fluid passing through the processing chamber to flow in the first direction.