Embodiments of the invention relate to devices and novel methods of aerating single servings of wine. Embodiments disclosed herein comprise an electrically-powered stirring mechanism into a wine receptacle. Embodiments further comprise a power source for the stirring mechanism, and a method to charge the power source. In certain embodiments, a stirring mechanism is positioned in a wine receptacle.

An animatronic agitating assembly includes an animatron that may be positioned on an edge of a pool. The animatron has a head, a torso, a pair of arms and a pair of legs. A motion unit is coupled to the animatron. The motion unit urges each of the legs to move back and forth with respect to the torso. Thus, each of the legs may agitate water in the pool.

A floating and energy-autonomous device (1) configured to dispense a solid compound (2) into a volume (3v) of liquid is provided. The device (1) has a reservoir (9) of solid compound (2), and a pump (13) configured to generate a circulating flow of the liquid (3) coming from the volume (3v) of liquid and passing through the reservoir (9) before returning to the volume (3v) of liquid. The device (1) includes a sensor (17) generates a sensor signal indicative of a parameter of the volume (3v) of liquid or of a gaseous environment (4) of the device (1), and/or an antenna (18) configured to receive a radio signal, and to generate an antenna signal. The device (1) includes a microcontroller (19) configured to command the pump (13) and to regulate the circulating flow rate of the liquid (3) on the basis of the sensor signal and/or of the antenna signal.

A floating and energy-autonomous device (1) configured to dispense a solid compound (2) into a volume (3v) of liquid is provided. The device (1) has a reservoir (9) of solid compound (2), and a pump (13) configured to generate a circulating flow of the liquid (3) coming from the volume (3v) of liquid and passing through the reservoir (9) before returning to the volume (3v) of liquid. The device (1) includes a sensor (17) generates a sensor signal indicative of a parameter of the volume (3v) of liquid or of a gaseous environment (4) of the device (1), and/or an antenna (18) configured to receive a radio signal, and to generate an antenna signal. The device (1) includes a microcontroller (19) configured to command the pump (13) and to regulate the circulating flow rate of the liquid (3) on the basis of the sensor signal and/or of the antenna signal.