A germicidal duct assembly that includes an inlet assembly, an irradiation chamber, and an outlet assembly is presented herein. The inlet assembly includes an inlet duct connected at one end to the irradiation chamber and at the other end to a vent. A fan is used to draw air into the inlet assembly and to the irradiation chamber. The outlet assembly includes an outlet duct connected at one end to the irradiation chamber and at the other end to a vent. A fan is used to facilitate the flow of air from the irradiation chamber through the outlet duct. The irradiation chamber includes at least one elongated ultraviolet light source disposed in an oblique manner relative to a longitudinal axis of said irradiation chamber in order to increase the exposure time of the air as it travels through the inlet ducts to irradiation chamber and out of the outlet ducts.

A germicidal duct assembly that includes an inlet assembly, an irradiation chamber, and an outlet assembly is presented herein. The inlet assembly includes an inlet duct connected at one end to the irradiation chamber and at the other end to a vent. A fan is used to draw air into the inlet assembly and to the irradiation chamber. The outlet assembly includes an outlet duct connected at one end to the irradiation chamber and at the other end to a vent. A fan is used to facilitate the flow of air from the irradiation chamber through the outlet duct. The irradiation chamber includes at least one elongated ultraviolet light source disposed in an oblique manner relative to a longitudinal axis of said irradiation chamber in order to increase the exposure time of the air as it travels through the inlet ducts to irradiation chamber and out of the outlet ducts.

An automated method for implementing UV-C light for air purification in hotel rooms is disclosed. By implementing a method for identifying the hotel room rental status and occupancy status, the UV-C light can be automated to a specific cycle time that will not cause issues with guest complaints or potential safety issues.

An automated method for implementing UV-C light for air purification in hotel rooms is disclosed. By implementing a method for identifying the hotel room rental status and occupancy status, the UV-C light can be automated to a specific cycle time that will not cause issues with guest complaints or potential safety issues.

An air sanitization and purification system controlled by a thermostat in wired or wireless communication with an ultraviolet germicidal irradiation light or bipolar ionization appliance, with operation of the light or appliance controlled according to a pre-defined operation schedule of a heating, ventilation and cooling (HVAC) system or by receipt of sensor data indicating the presence of a person with an enclosed area heated or cooled by the HVAC system.

Disclosed are techniques relating to an improved air quality device that can provide personalized comfort and improved air quality elements to occupants of a common space. The improved air quality device can comprise a plurality of individually adjustable directional outlets. The state of these individually adjustable directional outlets can be updated to individually satisfy comfort levels of various occupants at different locations within the common space, which can be determined based on inputs from a control device (e.g., thermostat), a sensor (e.g., occupancy sensor), and so forth. The improved air quality device can further comprise an ultraviolet light device that can reduce pathogens in the common space. The state of the ultraviolet light device (e.g., on/off, duration of on/off, a position/location, and so on) can be a function of the state of the state of the outlets.

The air filtration and cooling system is configured for use with an incorporated reference. The incorporated reference is identified as U.S. Pat. No. 9,308,484. The incorporated reference processes an air flow. Specifically, the incorporated reference removes particulates from the air flow. The incorporated reference is discussed in greater detail elsewhere in this disclosure. The air filtration and cooling system comprises the incorporated reference and a cooling system. The cooling system cools the air flow processed by the incorporated reference.

The mitigation of indoor pathogens comprises quantifying, using a bio-aerosol monitoring system, the amount of total pathogens in the air and on surfaces within an indoor environment. Moreover, the process comprises sanitizing the indoor environment with portable equipment to stabilize the indoor environment when it is determined that the indoor environment is contaminated. Also, the process comprises installing a purification device within a contaminated area of the indoor environment, and monitoring continuously, the indoor environment after sanitizing, for pathogens. Still further, the process comprises releasing a purifying agent upon detecting pathogens in the indoor environment, and providing periodic maintenance to the purification device.

The mitigation of indoor pathogens comprises quantifying, using a bio-aerosol monitoring system, the amount of total pathogens in the air and on surfaces within an indoor environment. Moreover, the process comprises sanitizing the indoor environment with portable equipment to stabilize the indoor environment when it is determined that the indoor environment is contaminated. Also, the process comprises installing a purification device within a contaminated area of the indoor environment, and monitoring continuously, the indoor environment after sanitizing, for pathogens. Still further, the process comprises releasing a purifying agent upon detecting pathogens in the indoor environment, and providing periodic maintenance to the purification device.

An electro-ionic device configured for being worn on the face of a person is disclosed. The electro-ionic device includes at least two electrical conductors spaced apart from each other defining at least a portion of a respiratory pathway therebetween and a circuit configured to apply a first voltage between the two conductors during inspiration and a second voltage greater than the first voltage during expiration.