Methods and devices for atomizing a fragrant liquid can use a reservoir that receives a volume of a base liquid. One or more drops of a substance are added to the base liquid to form a volume of an aromatic liquid. A vaporizer atomizes the aromatic liquid, forming a mist that is emitted from the device. The device allows a user to customize the blend of substances that are used to form the aromatic liquid.

An ultrasonic diffuser apparatus uses ultrasonic waves to aerosolize nano-emulsified cannabinoids into airborne nanoparticles. The apparatus includes at least: a base housing to house electronic components, a CBD storage compartment communicative with the base housing, and a cover removably mated with the CBD storage compartment. The cover includes an interior cavity and an exhaust outlet. The aerosolized CBD oil solution collects within the interior cavity and is expelled through the exhaust outlet where it is absorbed through the skin, mucus membranes and lungs of persons in a substantially closed room.

A liquid atomizing system electrically charged in a wireless manner: a liquid, a wireless charger, and an atomizer including a wireless charging receiver. The liquid is filled in the atomizer, and the wireless charger is electrically connected with a power source so that an electric power is inputted to the wireless charger from the power source to produce a magnetic field and to send an electromagnetic signal, thus transmitting energy by using the magnetic field. The wireless charging receiver of the atomizer is close to the electromagnetic signal sent by the wireless charger so as to receive the electromagnetic signal and to convert the electromagnetic signal into the electric power for driving the atomizer to atomize the liquid to micro water molecule and to deliver the micro water molecule to an external environment.

An anti-viral system for generating and outputting an ozone-laden flow of air mixed with aerosolized hydrogen peroxide has housing including an air input port for receiving air and an output port for outputting the ozone-laden airflow mixed with aerosolized hydrogen peroxide. The system preferably includes an air movement device, an ozone supply, an aerosolization chamber and a fluid-flow path between the air input port and the output port, which includes the aerosolization chamber therebetween. A flow of air into the fluid-flow path is supplied with ozone from the ozone supply prior to reaching the aerosolization chamber, which aerosolizes the hydrogen peroxide within the ozone-laden air.

An accurately mixed fragrance can be provided. A fragrance generation device includes: a first ultrasonic vibrator provided in a water container that contains water and used for atomizing the water; a first emission hole used for emitting the water atomized by the first ultrasonic vibrator; a plurality of second ultrasonic vibrators provided in a plurality of perfume containers that individually contain multiple types of perfumes, respectively, and used for atomizing the perfumes; a plurality of second emission holes arranged around the first emission hole and used for emitting the perfumes atomized by the plurality of second ultrasonic vibrators; and a control unit configured to control driving of the first ultrasonic vibrator and the second ultrasonic vibrators.

Atomizers and methods for operating atomizers for dispersing vapor into the ambient air are disclosed. Liquid from a vessel connected to the atomizer may be pumped to a first chamber having an atomizing element at or near the bottom of the first chamber. The atomizing element may convert the liquid to a vapor, and a fan may push air into the first chamber, causing the vapor to be dispersed into the ambient air through apertures at or near the top of the first chamber. Liquid remaining in the first chamber may be pumped back to the vessel, while the fan continues to run to dry the components in the first chamber.

Embodiments of the invention relate generally to disinfection and, more particularly, to methods, devices, and systems for disinfection of a space. In one embodiment, the invention provides a disinfecting system comprising: a disinfecting composition; and a device for producing a fog of the disinfecting composition, the fog comprising liquid droplets having diameters between about 0.5 micron and about 20 microns. In some embodiments, the invention includes a dehumidifying device for removing the fog of the disinfecting composition from the space.

An aerosol-generating system is provided, including a storage portion configured to store an aerosol-forming substrate; an aerosol-generating element configured to generate an aerosol from the aerosol-forming substrate; a control circuitry in communication with the storage portion or the aerosol-generating element; and disabling means for rendering the storage portion inoperable in the aerosol-generating system in response to a disable signal from the control circuitry. There is also provided a method in an aerosol-generating system, including sending a disable signal from the control circuitry to the disabling component following a determination that an amount of the aerosol-substrate in the storage portion is below a threshold level or following a determination of a malfunction in the system.

A system for dispensing fluid materials includes: a plurality of fluid storage chambers with each of the plurality containing a stored fluid; at least one MEMS dispensing element disposed in fluid communication with at least one of the plurality of fluid storage chambers; a control element disposed in electrical communication with the at least one MEMS dispensing element and comprising a memory component; a power supply disposed in electrical communication with the at least one MEMS dispensing element and the control element; and a user interface disposed in electrical communication with the control element. The memory component contains programmed instructions which, when executed by the control element cause the system to randomly dispense a first fluid from a first fluid storage chamber, and randomly disperse a second fluid from a second fluid storage chamber.

A system for releasing flavor comprises: a plurality of compartments adapted to receive a respective plurality of capsules, each capsule containing therein a flavor material; a dispenser system configured for dispensing into an environment a fluid obtained from at least one flavor material; and a controller configured for automatically selecting a dispensing protocol, for signaling the dispenser system to dispense fluids obtained from at least one flavor material contained in at least one capsule of the compartments, and for automatically re-executing the selecting and the signaling, according to a shuffle protocol.