Methods, systems, and devices relating to an electronic scented candle that is convenient to use and enables rapid generation and dissipation of scented materials are described. One electronic candle device includes a shell that has a through hole, a flame element protruding through the through hole, an installation lid including a locking base to allow removable coupling of a fragrance container, a scent chamber including a locking clip, a first channel, a second channel, a third channel, and a fourth channel. The scent chamber is removably coupled to the locking base by the locking clip, and an air pump provided to supply pressurized air.

A piezoelectric dispenser includes a refill having a container having a neck and defining a fluid reservoir, a wick holder affixed to the neck, and a wick retained by the wick holder that has an upper end that is in communication with a piezoelectric assembly, the wick defining a longitudinal axis. The dispenser further includes a housing having a base and an overhanging cover that defines a fluid outlet and extends inward from the base at a shoulder, toward the longitudinal axis, the overhanging cover being disposed around and above the upper end of the wick and housing the piezoelectric assembly. The piezoelectric assembly includes a coil compression spring and the base is provided on a rear side of the refill with the left, right, and front sides being exposed to a surrounding environment after the refill has been coupled with the overhanging cover.

A piezoelectric dispenser includes a refill having a container having a neck and defining a fluid reservoir, a wick holder affixed to the neck, and a wick retained by the wick holder that has an upper end that is in communication with a piezoelectric assembly, the wick defining a longitudinal axis. The dispenser further includes a housing having a base and an overhanging cover that defines a fluid outlet and extends inward from the base at a shoulder, toward the longitudinal axis, the overhanging cover being disposed around and above the upper end of the wick and housing the piezoelectric assembly. The piezoelectric assembly includes a coil compression spring and the base is provided on a rear side of the refill with the left, right, and front sides being exposed to a surrounding environment after the refill has been coupled with the overhanging cover.

A scent delivery system includes scent delivery units that are configured to deliver scent at a variable scent level by being turned on and off successively according to a variable duty cycle. The scent delivery units are associated with corresponding base scent settings. The scent delivery system also includes a central controller configured to control the scent delivery units by generating command data based on a scenting schedule that indicates a desired activation time for more than one implicated scent delivery unit. The scenting schedule is configured to further indicate a scent level bias to be applied to the base scent settings that are associated with different of the implicated scent delivery units. The central controller is configured to generate the command data, based upon a variation in the scent level bias, that takes into account a corresponding variation to duty cycles that are associated with different of the implicated scent delivery units and to communicate the command data to the different implicated scent delivery units.

A scent delivery system includes scent delivery units that are configured to deliver scent at a variable scent level by being turned on and off successively according to a variable duty cycle. The scent delivery units are associated with corresponding base scent settings. The scent delivery system also includes a central controller configured to control the scent delivery units by generating command data based on a scenting schedule that indicates a desired activation time for more than one implicated scent delivery unit. The scenting schedule is configured to further indicate a scent level bias to be applied to the base scent settings that are associated with different of the implicated scent delivery units. The central controller is configured to generate the command data, based upon a variation in the scent level bias, that takes into account a corresponding variation to duty cycles that are associated with different of the implicated scent delivery units and to communicate the command data to the different implicated scent delivery units.

A volatile material dispenser comprises a base that houses a printed circuit board. The base includes at least one button and a plurality of visual indicators along a front portion. The volatile material dispenser further comprises a stand assembly that is coupled with the base. The stand assembly includes a platform defining a front portion and a rear portion, a stand that is disposed above and on the rear portion of the platform, a manifold that is disposed at an upper end of the stand and defines an outer side surface from which extends a plurality of radially spaced ribs, and a piezoelectric assembly disposed within the manifold. The volatile material dispenser further comprises a cover that is configured to be attachable to and detachable from the base. The cover defines a chimney that defines a longitudinal axis. The manifold includes a refill chassis.

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.

A fragrance suitable for a user can be provided. A mobile terminal includes: an acquisition unit that acquires a psychosomatic state from a physiological index of a user; an input unit that inputs future information of the user; a determination unit that determines a recipe including one or more types and a mixing ratio of one or more perfumes based on the psychosomatic state and the future information; and a communication unit that transmits the recipe to a fragrance generation device.

A fragrance suitable for a user can be provided. A mobile terminal includes: an acquisition unit that acquires a psychosomatic state from a physiological index of a user; an input unit that inputs future information of the user; a determination unit that determines a recipe including one or more types and a mixing ratio of one or more perfumes based on the psychosomatic state and the future information; and a communication unit that transmits the recipe to a fragrance generation device.