An example system includes an incompressible, airtight pressurized container operable to maintain a pressure level in an internal pressurized environment, a transport system including at least two liquid transport conduits, and a mixing component, the two liquid conduits each being releasably coupled to a pressurized container interface coupled to the pressurized container and a dispensing interface, each liquid transport conduit including a controllable valve to enable or disable a flow of the liquid volume, the pressurized container interface capable of maintaining the pressure level, the mixing component being coupled to the at least two liquid transport conduits and the dispensing interface, a pressure regulation system connected to the pressurized container, the pressure regulation system operable to exert and maintain the pressure level within the pressurized container to enable compression of the first compressible liquid volume, and a control system operable to control the controllable valves and the pressure regulation system.

A system and method for dispensing beverage from a container, such as wine from a wine bottle. An identification element may be secured to a beverage container and include a tag and optically readable code that uniquely identify the container. A dispenser may dispense beverage from a container, and be able to read the tag of the identification element. Information regarding characteristics of beverage in the beverage container may be associated with a corresponding identification element and include a brand, type, vintage or volume of beverage in the container.

A system and method for dispensing fluids is introduced. A preferred embodiment comprises a sealed tank, a bag containing fluid inside the sealed tank, an outlet for dispensing the liquid in the bag, and a pressure generating device to create pressure in the sealed tank.

A beverage dispenser uses-high ratio concentrates to mix on-demand beverages. The high-ratio concentrate is pre-mixed with an alkaline water to allow for improved blending performance in the final beverage. The beverage recipe may be customized by the user to suit personal tastes. Aspects of the beverage dispenser also may include the ability to dispense room temperature, chilled, heated, sparkling, or highly alkaline beverages. Operation of a user interface to receive a beverage order includes the ability to display and employ user interfaces present on both a display on the beverage dispenser and an application on a mobile device. In some aspects, both user interfaces may be used simultaneously to receive user input. Methods of dispensing a beverage using the beverage dispensing systems are also discussed.

A beverage infusion apparatus includes: (a) a mixer for mixing a beverage concentrate and water to form a diluted concentrate, wherein the water is provided at a water pressure during operation sufficient to flow through the beverage infusion apparatus; (b) an infusion module for infusing a nitrogen containing gas into the diluted concentrate to form a gas infused beverage, wherein: (i) the infusion module comprises a gas draw venturi device for drawing the nitrogen containing gas into the diluted concentrate as a result of flow of the diluted concentrate through the gas draw venturi device to form the gas infused beverage; and (c) a dispensing valve for dispensing the gas infused beverage and constructed to move between an open position and a closed position, wherein: (i) the open position permits dispensing of the gas infused beverage from the beverage infusion apparatus; (ii) the closed position prevents dispensing of the gas infused beverage from the beverage infusion apparatus; and (iii) the dispensing valve is constructed to move between the open position and the closed position by a user of the beverage infusion apparatus. A method of forming a gas infused beverage is provided.

An example system includes an incompressible, airtight pressurized container operable to maintain a pressure level in an internal pressurized environment, a transport system including at least two liquid transport conduits, and a mixing component, the two liquid conduits each being releasably coupled to a pressurized container interface coupled to the pressurized container and a dispensing interface, each liquid transport conduit including a controllable valve to enable or disable a flow of the liquid volume, the pressurized container interface capable of maintaining the pressure level, the mixing component being coupled to the at least two liquid transport conduits and the dispensing interface, a pressure regulation system connected to the pressurized container, the pressure regulation system operable to exert and maintain the pressure level within the pressurized container to enable compression of the first compressible liquid volume, and a control system operable to control the controllable valves and the pressure regulation system.

Cooler control system for a beverage dispense system 1 having a beverage line (2) extending from a beverage source to a dispense site via a cooler (6). The cooler control system comprises: a controller (51) for adjusting the cooling of the beverage line; a flow rate sensor (41) measuring the flow rate in the beverage line, a temperature sensor (40); and an electronic control unit (31) for receiving a signal from the temperature sensor and/or the flow rate sensor and sending a signal to said controller. Cooler monitoring system comprising: at least one sensor (45) for monitoring energy consumption of the cooler (6); and an electronic control unit for receiving a signal from the at least one energy consumption sensor and for sending a signal to a remote location when energy consumption increases above a predetermined maximum value.

An effervescent liquid dispenser for a carbonated beverage is disclosed that includes a container containing liquid a pressurized liquid, the pressurized liquid becoming an effervescent liquid upon being dispensed from the container; and a dispense valve that is positionable in a first position for permitting pressurized gas to be received in a vessel, the dispense valve selectably movable between the first position and a second position, the dispense valve being secured to the container in the second position; wherein the container complies with 27 C.F.R. 5.46 (2017) and conforms with 49 C.F.R. 173.306 (2017); wherein the dispense valve further comprises a cap which is rotated about an axis to engage a retention feature that prevents the cap from being removed from the dispenser.

Fixed systems and method for extinguishing large scale industrial tank fires, with and without fixed roofs, and featuring aerated foam projecting nozzles and including fixed center directed nozzles.

A beverage dispensing valve may include an inlet to receive carbonated water, a nozzle shell, and an outlet downstream of the nozzle shell configured to dispense a finished beverage. The nozzle shell may include an aperture open to ambient pressure environment. A method for dispensing a beverage may include flowing carbonated water through an inlet of a beverage dispensing valve, lowering the pressure of the carbonated water sufficient to promote carbon dioxide nucleation, flowing the carbonated water through a chamber vented to environment such that a portion of carbon dioxide nucleated is off-gassed, and introducing a beverage ingredient when the carbonated water reaches a sufficiently low carbonation level. A beverage dispensing nozzle may include an inlet configured to receive carbonated water from a beverage dispensing valve, a nozzle shell including an aperture open to ambient pressure environment, and an outlet downstream of the nozzle shell configured to dispense a finished beverage.