A beverage making machine may employ a mixing chamber to mix a beverage medium with a precursor liquid, such as carbonated water. The mixing chamber may have a precursor liquid inlet coupled to a precursor liquid supply, a beverage medium chamber to receive a beverage medium into the beverage medium chamber, and a dispense outlet from which beverage medium and precursor liquid are dispensed, e.g., into a user's cup. The beverage medium chamber may include a chamber inlet coupled to the precursor liquid inlet, e.g., so precursor liquid can enter the chamber when a pressure is low in the beverage medium chamber, and a chamber outlet downstream of the chamber inlet that is coupled to the dispense outlet, e.g., so that beverage medium can exit the chamber.

A beverage product, and a system and a method for manufacturing the same are provided. The method for manufacturing a beverage product includes: (a) providing a beverage intermediate product including a container and a beverage, wherein the container has an accommodating space which is not occupied by the beverage; (b) filling a beverage foam into the accommodating space; and (c) sealing the container so that the accommodating space is sealed to obtain the beverage product.

Embodiments of the present disclosure are directed to extracting the liquid from a container (such as a bottle of wine) in varying amounts at a desired serving temperature while preserving the liquid for later consumption. Various embodiments may be built within an appliance so the consumer experience is fully automated. Embodiments may include a variety of wine preservation techniques including the use of inert gases that prevent the oxidation of wine.

Systems, methods and cartridges for carbonating or otherwise dissolving gas in a precursor liquid, such as water, to form a beverage. Carbonating gas can be provided to a tank via the tank outlet, thereby purging at least a portion of a dispense line leading from the tank to a dispensing station. A single pump may be used to deliver liquid to the tank, e.g., for carbonation, and to pump pressurized air to dispense liquid from the tank. A water trap may help remove moisture from carbonating gas.

Water dispensing apparatus comprises modular components including but not limited to an easily accessible water heating module and a water cooling module. The water dispensing apparatus further comprises a rotatable bracket on a front wall thereof for connecting a carbon dioxide tank thereto and disposing the same within a compartment within the front wall thereof.

A module for continuously generating high-level carbonated water according to an embodiment relates to a module for continuously generating high-level carbonated water for continuously dispensing high-level water in a direct water type. The module includes: a mixing container part in which water W and carbon dioxide are mixed to generate the carbonated water; a micro water jet unit that generates a plunging jet in a direction of gravity with respect to a surface of water filled in the mixing container part; a carbonic acid gas supply unit that injects carbon dioxide gas from a lower side of the mixing container part to form a high-pressure carbonic acid gas layer in an opposite direction of gravity by buoyancy; and a carbonated water outlet unit that increases a dispersion of carbonic acid gas bubbles due to a turbulent flow formed by the micro water jet unit and the carbonic acid gas supply unit in the mixing container part to dispense the carbonated water to a lower portion of the mixing container part while the carbonated water dissolved instantaneously keeps a carbonation pressure of 3.5 or more, in which the micro water jet unit or the carbonic acid gas supply unit includes a member for an inner diameter shaft pipe for reducing an inner diameter of a first pipe part so that a microinjection port is formed in the first pipe part.

A mixing chamber for use in a beverage carbonation system is provided. In one embodiment, the carbonation mixing chamber includes a housing, a fluid inlet pathway, a gas inlet pathway, and an outlet pathway. The housing may have an inner chamber, and the fluid inlet pathway can be configured to extend into the inner chamber of the housing and receive fluid from a fluid source. The gas inlet pathway can be configured to extend into the inner chamber of the housing and can be configured to receive gas from a gas source. The gas inlet pathway can include a plurality of nozzles positioned within the inner chamber and configured to direct gas in a plurality of directions that differ from one another. The outlet pathway can be configured to dispense a mixture of fluid and gas from the inner chamber.

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.

Various illustrative systems, devices, and methods of beverage carbonation system flow control are provided. A carbonation system is one example of a treatment system to which the systems, devices, and methods described herein apply. In general, a carbonation system is configured to form a carbonated fluid and dispense the carbonated fluid in a controlled manner. In an illustrative embodiment, the carbonation system is configured to begin dispensing the carbonated fluid with a pressure in a chamber of the carbonation system, in which the carbonated fluid is formed, being above atmospheric pressure. A gas is introduced into the chamber after dispensing has already started via the pressure in the chamber to drive the flow of the carbonated fluid. The gas can be introduced into the chamber according to a predetermined pressure profile.

The invention includes components and methodology for fixed and semi-fixed systems for extinguishing fire in large industrial flammable liquid storage tanks, including aerated foam projecting nozzles discharging substantially focused streams together with aeration chambers and risers and the formation of wand heads and wands. Specifically, the invention includes a nozzle having a tip portion, the tip portion having a stream shaper, and the stream shaper having at least four fins with a longitudinal dimension in the tip portion greater than a radial dimension in the tip portion.