A dispense tap with integral gas/liquid infusion for dispensing a beverage at a given dispensing point inside a restaurant, a coffee shop, a bar, or a convenience store, features a mixing chamber having at least one gas input port configured to receive at least one incoming gas stream; at least one liquid input port configured to receive at least one incoming liquid or concentrate stream; and an infuser configured to mix the at least one incoming gas stream and the at least one incoming liquid or concentrate stream at the given dispensing point within the dispensing tap, and provide a mixing chamber stream containing a gas infused liquid mixture of the at least one incoming gas stream and the at least one incoming liquid or concentrate stream for dispensing as a beverage. The degree of absorption of the at least one incoming gas stream and the at least one incoming liquid or concentrate stream in the gas infused liquid mixture depends at least in part on sensed gas, liquid or concentrate pressure characteristics of one or more of the at least one incoming gas stream received by the infuser, the at least one incoming liquid or concentrate stream received by the infuser, or the gas infused liquid mixture provided from the infuser.

A blender for blending ingredients from a container with a fluid includes a bottle including a chamber with an opening to receive the fluid and a shoulder about the opening. The blender further includes a lid configured to couple with the bottle that includes a container receiver. The container receiver is configured to receive the container containing the ingredients and position the container against the shoulder when the lid is coupled to the bottle, wherein the shoulder is configured to have a shape and size to receive and seat the container. The container receiver is further configured to apply pressure to the container while the shoulder holds the container stationary to discharge the ingredients from the container into the chamber.

A blender system includes a blender including a bottle having a chamber, and a lid configured to couple with the bottle, the lid having a container receiver. The blender system also includes a container having a nutrient receptacle to receive contents with a closed end, a receptacle opening opposite the closed end, and at least one flap coupled to the nutrient receptacle via a flap hinge and positioned in a closed position to cover a portion of the receptacle opening. The container receiver is configured to position the container such that coupling the lid to the bottle with the container in the container receiver causes the at least one flap to rotate on the flap hinge to an open position to discharge the contents into the blending chamber.

An assembly for supporting a member in a vessel comprises a clip comprising an arm with a first end attached to a panel and a second end opposed to the panel. The panel is secured in the vessel. The assembly also comprises a plate slidably disposed between the second end of the arm and the panel. The subject matter also pertains to the clip itself and the method of use.

A microbubble device controller includes a box, and a first water pipe, a gas pipe and a bypass pipe installed in the box. The first water pipe is connected to a pump and has a first electromagnetic control valve to open or close the first water pipe. The gas pipe is connected to a gas source and the pump, and has a second electromagnetic control valve to open or close the gas pipe. The bypass pipe is connected to the first water pipe and has a pressure switch in telecommunication connection with the second electromagnetic control valve. The first electromagnetic control valve controls the first water pipe to be in the high flow state or a closed state to affect the bypass pipe. When the bypass pipe is in a high pressure state, the second electromagnetic control valve opens the gas pipe, or closes the gas pipe otherwise.

A beverage apparatus, the beverage apparatus being hand-holdable by a user of the beverage apparatus to be portable, can include a beverage chamber housing that includes a chamber for storing a consumable liquid. The beverage apparatus can include a dispensing assembly that includes a receptacle. The receptacle can retain a vessel. The vessel can include an electronic tag and can contain an additive. The dispensing assembly can be operatively controllable by a controller to output the additive from the vessel into the consumable liquid. The beverage apparatus can include one or more sensors, devices, or assemblies that can be used to detect a volume of liquid in the chamber or a liquid level in the chamber. The beverage apparatus can include an apparatus processing portion (ACP) and an apparatus database portion.

A bio emulsion fuel manufacturing apparatus and method using vegetable oil is provided, including an oil tank unit configured to refine a vegetable oil introduced from an oil inlet by using a coagulant agent and a centrifugal decanter; a water tank unit configured to pretreat a water introduced from a water inlet by using a water tank catalyst; a mixed oil unit connected to the oil tank unit and the water tank unit, and configured to produce a mixed oil by using an inline mixer; and an ionization catalyst unit connected to the mixed oil unit and configured to convert the mixed oil to a bio emulsion fuel by using an ionization catalyst group.

An apparatus for measuring the composition of a gas mixture containing known components, including a first gas density sensor configured and arranged to measure the density of a first mixture made by combining a gaseous first component and a gaseous second component; a second gas density sensor configured and arranged to measure the density of a second mixture made by combining the first mixture with a gaseous third component; and a processor programmed to determined based on data from the first gas density sensor the relative compositions of the first component and the second component in the first mixture, and to determine based on the data from the second gas density sensor the relative compositions of the first mixture and the third component in the second mixture, and thus to determine the relative compositions of the first component, the second component, and the third component in the second mixture.

Described herein is a baby bottle formula mixing and feeding assembly designed to be coupled to a standard baby feeding bottle or powder mixing bottle. The formula mixing assembly is designed to include at least four main components: a bottom housing, a cylindrical gate body, a top housing and a cylindrical pliable cup body disposed within the top/bottom housing. A locking mechanism is included that unlocks the top housing and the gate body containing the pliable cup body and the formula, such that the apertures in the gate body align with the apertures in the bottom housing to when the top housing is rotated so as to empty the formula contents into the bottle with the liquid. e both the bottom housing and the gate body.

A cosmetics mixing device for homogenizing suspensions of cosmetics includes a housing that defines an interior space. The housing is open-topped, and a block is positioned in the interior space. A plurality of recesses extends into the block from an upper face of the block. Each recess extends from proximate to a first endpoint to proximate to a second endpoint of the block. Each of a plurality of couplers is coupled to the block and is positioned in a respective recess. The coupler is configured to couple to a respective tubular container to retain the respective tubular container within the respective recess. A shaking module that is coupled to the housing and positioned in the interior space is operationally coupled to the block. The shaking module is positioned to shake the block to mix a cosmetic that is positioned in the respective tubular container.