A container assembly includes a flexible bag having an interior surface bounding a chamber and an opposing exterior surface, the bag having a bottom end wall being comprised of a first sheet overlying a second sheet, the first sheet and the second sheet of the bottom end wall being welded together so as to form a first sparging area and a separated second sparging area that are both bounded between the first sheet and the second sheet, at least a portion of the first sheet overlying the first and second sparging areas being gas permeable.

Aerator device for introducing gas bubbles into a liquid and comprising a base member with a gas supply and an elastic perforated membrane attached to the base member, and further with a UV protecting cover member, said UV protecting cover member or at least a part thereof being arranged above the membrane to protect the membrane against UV radiation during shipping and storage.

A container system includes a collapsible bag having an interior surface at least partially bounding a chamber, the chamber being adapted to hold a fluid. A sparger is disposed within the chamber of the bag, the sparger bounding a compartment and having an inside edge that encircles an opening passing through the sparger. At least a portion of the sparger is gas permeable. A tubular member is coupled to the sparger and is in communication with the compartment. A shaft passes into the chamber of the bag and through the opening of the sparger. A mixing element is secured to the shaft and is disposed within the chamber of the bag.

A diffuser assembly includes a flexible diffuser membrane and a diffuser body. The flexible diffuser membrane defines a perimeter edge bead along four edges. The diffuser body defines an underlying body portion underlying the flexible diffuser membrane, and a perimeter edge frame covering a covered portion of the perimeter edge bead. The edge frame defines an inside surface that conforms to an outside shape of the covered portion of the perimeter edge bead. The perimeter edge frame is integral to the underlying body portion.

An apparatus for releasing a gas into a liquid housed in a container has a gas assembly including a source of compressed gas; a float in fluid communication with the source of compressed gas; and a gas release member in fluid communication with the source of compressed gas and the float. The gas release member is adapted to release gas into the liquid. The float has variable buoyancy that causes the float and the gas release member to ascend and descend depending on the buoyancy of the float, the buoyancy of the float being reduced as the gas is released into the liquid.

The present disclosure provides fluids, such as a distilled spirit, comprising at least about 25 ppm of an infused gas. Systems and methods for producing such gas-infused fluids are also provided.

An apparatus for generating fine-bubble-containing liquid is provided with: a plurality of bubble generating tubes each having a tubular shape extending in the longitudinal direction, each tube being configured such that at least a middle portion between one end and the other end of each tube is composed of porous ceramics to inject bubbles into a liquid that contacts the middle portion; a one-side support member that supports the one end of each of the bubble generating tubes; an other-side support member that supports the other end of each of the bubble generating tubes; and an interval keeping member that maintains the interval between the one-side support member and the other-side support member.

The present invention is directed towards a liquid drink dispensing apparatus. The apparatus comprises a gas generating component and a liquid drink dispensing component. The generated gas is supplied to the liquid drink dispensing component which infuses the generated gas into a liquid drink prior to dispensing the gas-infused liquid drink. The advantage of using a gas generating component is that the gas can be created on-site and no bottled gas needs to be used. This obviates the problems associated with purchasing, storing, using and replacing gas cylinders.

A diffuser membrane and a method for manufacturing the same are provided. In the method for manufacturing, a first material is heated and extruded to form a base layer and a second material is heated and extruded to form a coating layer. The base layer and coating layer may be extruded substantially simultaneously in a coextrusion process. Accordingly, the coating may be applied to the base layer in a manner that optimizes the bonding between the two layers and provides the ability to control the thickness of the coating layer. Alternatively, the base layer is formed initially and the coating layer is subsequently formed thereover. The first and second materials have differing properties. The first material may comprise polyurethane and the second material may comprise polyurethane and PTFE.

An aeration element for gasification or aeration of liquids includes an essentially flattened, rigid support element having a substantially oval cross-section and corrugated outer surfaces, the corrugated outer surfaces including ridges defining grooves therebetween; a threaded opening for receiving a cooperating fitting for connection to an air supply; and a flexible membrane of elastomeric material disposed around the support element. An assembly bracket includes upper and portions that can be cooperatingly attached to one another about the aeration element for securing the aeration element to a floor of a tank or pool. The assembly bracket includes through-going passages for enabling water to circulate around the bracket and reduce buoyancy of the assembly. Two aeration elements of shorter lengths can be positioned adjacent two one another, secured within assembly brackets, and connected at adjacent ends, so that one of the aeration elements functions as a conduit to the other aeration element when air is supplied into one of the aeration elements.