Afforded is a spraying apparatus that enables the large-volume generation of fine particles having particle diameters minute to a level that can give rise to Brownian motion. A spraying apparatus of the present invention is furnished with: an atomization tank 11 enabled for storing a liquid formulation; an atomizing device 12 being ultrasonic vibration elements arranged in the atomization tank interior, for atomizing the liquid formulation to generate fine particles; a blower 13 furnished with a blower element enabled for maintaining predetermined rpm, for blasting into the atomization tank interior, through a blow port 11b provided in the atomization tank, conveyance air that is for conveying the fine particles of the liquid formulation; a send-out port 11c, provided in the atomization tank, through which the fine particles are sent out together with the conveyance air; and a baffle plate 14a arranged in the atomization tank interior so as to receive liquid columns of the liquid formulation, produced by the ultrasonic vibration elements; wherein the baffle plate and the send-out port are arranged so that conveyance air supplied through the blow port goes through a gap between one end part 14ae of the baffle plate 14a and the atomization tank, winds in along the surface on the plate's liquid-column receiving side and then arrives at the send-out port.

A method of treating the air with a sanitizing composition is provided. The method includes dispensing a sanitizing composition in the form of liquid particles and vapor from a dispensing device; circulating the vapor into the air; removing at least a portion of the liquid particles dispensed from the dispensing device; and reducing the level of airborne microorganisms in the air.

An air sanitizing system is provided. The air sanitizing system includes a dispensing device configured to dispense a sanitizing composition into liquid particles and vapor. The air sanitizing system also includes a fan that is configured to disperse the vapor of sanitizing composition into the air. The air sanitizing system includes a filtering device configured to remove at least a portion of the liquid particles.

A method of fragrance release within an aircraft having a cabin and an environmental control system for controlling the cabin environment. The method includes: receiving a current aircraft status from the aircraft's environmental control system, wherein the current aircraft status comprises one of: boarding, take-off, breakfast service, lunch service, dinner service, beverage service, sleep mode, cruise, landing, deboarding and emergency; determining an appropriate fragrance for the current aircraft status from a plurality of fragrance sources; and releasing the appropriate fragrance for the current aircraft status into the aircraft's cabin.

An air sterilizing device, comprising: a housing (100), forming an air flow path thereon; an ozone generating unit (200), generating ozone particles to be supplied to the air flow path; a filter cartridge (300), receiving ozone generated by the ozone generating unit (200) to discharge bubbles comprising ozone and hydroxyl radicals; an ultrasonic generating unit (400), connected to the filter cartridge (300) to generate ultrasonic waves; an air supply fan (500), configured to supply air to the air flow path of the housing (100); and a power supply unit, configured to supply power for driving the ozone generating unit (200), the ultrasonic generating unit (400), and the air supply fan (500).

A method for controlling one or more scent delivery units includes maintaining one or more scheduled events, maintaining one or more scheduled anti-events, and generating, based on the one or more scheduled events and the one or more scheduled anti-events, command data to be communicated to the one or more scent delivery units to control their activation and deactivation. Generating the command data includes identifying a conflicting period of time during which control specified by the one or more scheduled events differs from control specified by the one or more scheduled anti-events and also includes generating command data that gives priority to control specified by the one or more scheduled anti-events. Control for the one or more scent delivery units during the conflicting period of time is in accordance with control logic of the one or more scheduled anti-events and not the one or more scheduled events.

A method and apparatus for decontaminating substantially enclosed environments by using ultrasonic cavitation of a cleaning fluid to produce a low pressure, low air flow mist that can be activated by a nonthermal plasma actuator to create a cloud of activated hydroxyl species with the capacity to decontaminate articles, open surfaces or substantially enclosed spaces of pathogens, including bacteria, and other pathogenic microorganisms. An automated system and related non-transitory computer medium are also disclosed.

A fluid diffuser for atomization of essential oils can have a flexible seal used to reduce internal pressure of an air chamber adjacent to the atomizer. It can also use a cover and a sensor to control the operation of the atomizer based on the position of the cover. An atomizer housing portion of the diffuser can be removable and replaceable relative to a lower portion of the housing.

A method for controlling one or more scent delivery units includes maintaining one or more scheduled events, maintaining one or more scheduled anti-events, and generating, based on the one or more scheduled events and the one or more scheduled anti-events, command data to be communicated to the one or more scent delivery units to control their activation and deactivation. Generating the command data includes identifying a conflicting period of time during which control specified by the one or more scheduled events differs from control specified by the one or more scheduled anti-events and also includes generating command data that gives priority to control specified by the one or more scheduled anti-events. Control for the one or more scent delivery units during the conflicting period of time is in accordance with control logic of the one or more scheduled anti-events and not the one or more scheduled events.

The present invention relates to the use of a scented aqueous composition, in an electric fragrance diffuser operating with a piezoelectric ceramic, characterised in that said scented aqueous composition comprises 0.1% to 0.3% by weight with respect to the total weight of said composition of a fragrance of an essential oil and/or of raw materials of natural or synthetic fragrance, 0.1 to 1% by weight with respect to the total weight of said composition of a fragrance of a non-ionic surfactant agent, and 0.01 to 0.1% by scented weight with respect to the total weight of said composition of a fragrance of a preserving agent.