A system and method for maintaining, monitoring and improving air quality and purity in a room or environment, such as a hospital room or operating room.

The mixing nozzle has a throat section, a diffuser section, a gas nozzle section, a first liquid suction port, a liquid nozzle section, a second liquid suction port, a baffle plate, and a jetting port. The first liquid suction port liquidly absorbs the solution in the water storage pool from a side of the gas nozzle section toward the gas nozzle tip. The liquid nozzle section extends to the downstream side of the gas nozzle section with intervening the first liquid suction port. The second liquid suction port liquidly absorbs the solution in the water storage pool from a side of the liquid nozzle section toward the liquid nozzle tip. The baffle plate is provided such that the mixed flow mixed in the diffuser section collides in front of a downstream end of the diffuser section, and divides and reverses the mixed flow.

An air evacuator includes a dome having an exterior surface, an interior funneling surface, an air intake end, and an air outlet end, the dome being significantly wider at the air intake end than at said air outlet end. An inlet allows air from outside the air evacuator to be drawn into the dome. A vent tube is positioned to receive air from the air outlet end of the dome. An air pump is positioned to move air in the air evacuator and through a filter. One or more interior-aimed ultraviolet lamps positioned within the air evacuator treat and disinfect air as it is drawn into the air evacuator. A light trap extends substantially across the air intake end of the dome to prevent ultraviolet light from one or more ultraviolet lamps from shining directly out from within the dome through the air intake end of the dome.

The present invention relates to a photocatalytic module for an automobile air conditioner and an automobile air conditioner having the same and, more particularly, to a photocatalytic module capable of eliminating various germs resulting from dew formed on an evaporator installed in an automobile air conditioner and corresponding bad smell, and an air conditioner having the same.

The photocatalytic module includes a duct fixation frame 54 adjacent to an inner wall of the duct 10; a filter fixation frame 55 having one end connected to the duct fixation frame, the filter fixation frame 55 fixing the photocatalytic filter 52; a photocatalytic filter 52 fixed by the fixation frame 55, being formed by applying a photocatalytic material onto a supporter having a shape of a plurality of cells neighboring each other and provided with a plurality of airflow paths; and a substrate 58 fixed to the duct fixation frame 54 and equipped with an ultraviolet (UV) light emitting diode (LED) 59 for radiating ultraviolet light toward the photocatalytic filter 52.

The present provides an air conditioner having the photocatalytic module installed therein and an LED disposed upstream of the photocatalytic filter on the flow path of the duct.

A system for decontaminating/neutralizing breathable air and surfaces in an occupied enclosed space, i.e., hydroponic greenhouses, aircraft, rail and road vehicles, in building ducts, or rooms, includes mounting an atmospheric hydroxyl radical generator along an inside surface of an occupied space having respective air inlets and air outlets. The hydroxyl radical generator includes a polygonal housing supporting a plurality of spaced crystal-spliced UV optics medical grade pure quartz, which emit/irradiate ultraviolet in the nanometer wavelength/ultraviolet spectrum of between 100 and 400 nanometers for deactivating and neutralizing atmospheric chemicals and pathogens in breathable air and surfaces. The hydroxyl radicals contact the walls of the reaction chamber housing. The hydroxyl radicals become created and excited to react quickly with impurities including VOC, virus, bacteria and fungi, rendering them inactivated and neutral. The breathable air passes through the polygonal housing and is decontaminated and neutralized of impurities before entering the occupied enclosed space.

A system for decontaminating/neutralizing breathable air and surfaces in an occupied enclosed space, i.e., hydroponic greenhouses, aircraft, rail and road vehicles, in building ducts, or rooms, includes mounting an atmospheric hydroxyl radical generator along an inside surface of an occupied space having respective air inlets and air outlets. The hydroxyl radical generator includes a polygonal housing supporting a plurality of spaced crystal-spliced UV optics medical grade pure quartz, which emit/irradiate ultraviolet in the nanometer wavelength/ultraviolet spectrum of between 100 and 400 nanometers for deactivating and neutralizing atmospheric chemicals and pathogens in breathable air and surfaces. The hydroxyl radicals contact the walls of the reaction chamber housing. The hydroxyl radicals become created and excited to react quickly with impurities including VOC, virus, bacteria and fungi, rendering them inactivated and neutral. The breathable air passes through the polygonal housing and is decontaminated and neutralized of impurities before entering the occupied enclosed space.

A device for sterilizing air from any bacterium, virus, dust or other organic or non-organic body present in the air of a public or private space, using a sterilization chamber having a laser beam filter is provided. A dense network of laser beams which saturate the sterilization chamber is created. The air forced to go through the sterilization chamber causes every small particle, bacterium and virus of any size to impact on the laser beams, pulverizing, destroying and/or neutralizing itself completely by the large beam energy irradiated for a time ranging from 0.5 to 2 seconds.

An air cleaner assembly having a lighting arrangement which emits ultraviolet (UV) light for the purpose of disinfecting air which is circulated through the air cleaner assembly, and which disinfected air is then discharged from the assembly. The air cleaning assembly may be utilized in conjunction with an upright space-dividing wall panel system, such as those used in office or work areas.

A device and method for purifying a vehicle cabin is provided. The device comprises a housing, a plurality of light emitting diode (LED) modules each containing an LED, wherein the LED modules are positioned at least partially within the housing, a catalytic target structure, wherein the structure is located below at least one of the LED modules in the plurality of LED modules, a plurality of reflectors, wherein the reflectors are located below at least one of the LED modules in the plurality of LED modules, a plurality of fans, wherein the fans are located at least partially within the housing, a plurality of photocatalyst filters positioned at least partially within the housing, wherein at least one of the plurality of photocatalyst filters is in parallel with at least one of the LED modules in the plurality of LED modules, and a control unit located at least partially within the housing, wherein the control unit is operatively connected to the plurality of LED modules.

There is an air purification system comprising, at least one housing, at least one pump configured to pump an enhanced fluid through the housing. at least one fan configured to draw air into the housing. With this embodiment, the air flow of the air is being cleaned and flows in a direction transverse to the direction of flow of the enhanced fluid. There can be at least one sensor configured to determine a level of biological impurities in the air. There can also be at least one controller configured to control a rate of movement of said at least one fan based upon a level of impurities detected by said at least one sensor.