The invention discloses a faucet capable of discharging ozone water, which includes a faucet body; an ozone generator; a water-gas mixer which includes a water inlet and a water outlet respectively located at two ends, wherein the water-gas mixer is arranged on a water outlet pipeline of the faucet body through the water inlet and the water outlet, an inner diameter reducing portion is formed in the water-gas mixer, a gas inlet is arranged at a position of a side wall of the water-gas mixer corresponding to the inner diameter reducing portion, and the gas inlet is communicated with the ozone generator; and a sensor arranged on the faucet body and used to receive an inductive signal to switch on or switch off the ozone generator.

A connector for connecting a gas canister to a carbonation machine includes holding structure with a threaded socket that is configured to hold an exteriorly threaded valve head that is screwed into the socket to enable operation of a gas release mechanism of the carbonation machine to release a gas from the gas canister. A rotatable projection extends distally from the holding structure and that is configured to engage cooperating structure on the gas canister. When the valve head is fully inserted into the socket, a gasket in the socket is sufficiently compressed to prevent escape of the gas between the valve head and the socket when the gas is released from the gas canister compression while overtightening damage to the gasket is prevented.

A swirler includes a swirler body and a plurality of axial swirl vanes extending radially outward from the swirler body. At least one of the swirler body or vanes includes a spring channel defined therethrough. A fuel injector for a gas turbine engine can include an inner air swirler and/or outer air swirler as described above.

A receiving apparatus for receiving a bottle for a carbonation machine; the receiving apparatus has a securing apparatus for securing the bottle, the securing apparatus has a locking element, the locking element has a guiding means; when the receiving apparatus is moved from the bottle receiving state into the fitting state, the locking element is guided by the guiding means such that the bottle is secured by means of the locking element; the locking element is configured to be pivoted about a locking element axis; the locking element in the bottle receiving state is arranged in a radially outer position; when the receiving apparatus is moved from the bottle receiving state into the fitting state, the locking element is pivoted about the locking element axis from the radially outer position into a radially inner position, and the radially inner position is configured to secure the bottle.

A hydro turbulator system includes a volute that has a top duct and a bottom duct that allow fluid to enter and exit the volute. An impeller system including a first impeller and a second impeller is positioned within the volute. The first impeller and the second impeller are axially aligned. A motor is operationally connected to the impeller system so that the first impeller and the second impeller rotate upon operation of the motor. Rotation of the first impeller and the second impeller creates successive zones of high pressure and low pressure to agitate and condition fluid within the volute.

Provided is a slurry manufacturing apparatus including: a mixing unit that mixes a predetermined powder and a solvent in a mixing chamber to produce a slurry; a supply unit that supplies a reaction gas to the mixing chamber when the slurry is produced by the mixing unit; and a circulation unit that recovers a surplus of the reaction gas from the mixing chamber and resupplies the surplus of the reaction gas to the mixing chamber.

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 selective hydrogen adding equipment for supplying hydrogen to a living organism applicable fluid includes a hydrogen generating system, that contains a hydrogen generating agent as an essential component, a hydrogen bubble forming implement, that stores the hydrogen generating system and has a gas/liquid separating section including a gas-permeable film or an open-close valve, and a closed container to accommodate the hydrogen adding equipment. The gas/liquid separating section vents hydrogen gas generated by a contact reaction between the hydrogen generating agent and water or water vapor, the gas/liquid separating section avoids the water from flowing out and/or avoids the living organism applicable fluid from flowing in. The gas/liquid separating section allows water vapor of the living organism applicable fluid to flow in the hydrogen bubble forming implement so as to contact with the hydrogen generating agent.

Various systems, devices, and methods of determining an amount of carbon dioxide in a gas source in a carbonation system 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 can be configured to determine an amount of CO.sub.2 in a gas source, such as a CO.sub.2 canister, removably coupled to the carbonation system. The carbonation system can also be configured to provide a notification (e.g., audible alert and/or visual alert) to a user of the carbonation system indicative of the determined CO.sub.2 amount.

A swirler includes a swirler body and a plurality of axial swirl vanes extending radially outward from the swirler body. At least one of the swirler body or vanes includes a spring channel defined therethrough. A fuel injector for a gas turbine engine can include an inner air swirler and/or outer air swirler as described above.