A beverage packaging apparatus comprises a Refrigeration Assembly that keeps the beverage cold all the way to the fill head. The Refrigeration Assembly also allows manufacturers to fill off smaller beverage containers like kegs or larger storage tanks. The apparatus includes an integrated Container Loading Chute, and a Container Depalletizer having a scoop to depalletize containers. The Container Depalletizer integrates with the Container Loading Chute to provide for seamless flow for the Fill Head Assemblies and Seaming Assembly. The apparatus includes a unique integrated UV-C Sanitizing Station. The apparatus includes a conveyor with three fill head assemblies automated by smooth pneumatic actuation. Each fill head assembly has an integrated flow meter to provide precise fluid control. The apparatus includes a single pneumatic, rotary rack and pinion actuation that provides highly repeatable sealing of the container in a very small footprint without requiring sophisticated software to control the seaming operation. Finally, the apparatus includes rinse and dry assembly for the container and an innovative, integrated Accumulation Assembly to hold the completed beverage containers or packages.

A beverage packaging apparatus comprises a Refrigeration Assembly that keeps the beverage cold all the way to the fill head. The Refrigeration Assembly also allows manufacturers to fill off smaller beverage containers like kegs or larger storage tanks. The apparatus includes an integrated Container Loading Chute, and a Container Depalletizer having a scoop to depalletize containers. The Container Depalletizer integrates with the Container Loading Chute to provide for seamless flow for the Fill Head Assemblies and Seaming Assembly. The apparatus includes a unique integrated UV-C Sanitizing Station. The apparatus includes a conveyor with three fill head assemblies automated by smooth pneumatic actuation. Each fill head assembly has an integrated flow meter to provide precise fluid control. The apparatus includes a single pneumatic, rotary rack and pinion actuation that provides highly repeatable sealing of the container in a very small footprint without requiring sophisticated software to control the seaming operation. Finally, the apparatus includes rinse and dry assembly for the container and an innovative, integrated Accumulation Assembly to hold the completed beverage containers or packages.

Described herein generally are sterilization devices that can allow sterilization of luminal connection ports and vials, including vial caps. Methods of using these devices are also described.

Described herein generally are sterilization devices that can allow sterilization of luminal connection ports and vials, including vial caps. Methods of using these devices are also described.

A process of producing hydrogen water includes the steps of: providing a source of spring water; cooling the water to a temperature of from 33 to 38 degrees F.; providing a source of hydrogen gas; contacting the cooled water with the hydrogen gas in a venturi injector forming micro-sized hydrogen bubbles in the water and diffusing hydrogen gas into the cooled water; recirculating the water through the venturi injector until a predetermined hydrogen content in the water is realized forming hydrogen water having a hydrogen content of from 3 to 10 parts per million.

The present invention involves both an apparatus and an associated method for confirming the presence or absence of closures in a closure nest inside an aseptic chamber. The apparatus comprises a topographical profiler disposed to monitor the closure nests. Vertical displacements in topographical maps obtained by the profiler are compared with information from a database about the nest and closure combinations. Vertical displacements falling outside predetermined upper and lower bounds are deemed absences of closures. The topographical profiler may be disposed outside the aseptic chamber. The system may be automated via a controller and suitable software. In some embodiments the nests and disposed in the monitored area by robotic articulated arms. In other embodiments the closure nests are moved by vacuum pickup systems. The system and method may also be employed to assess the suitability of a closure nest for closing in an aseptic chamber containers in a container nest.

The present invention involves both an apparatus and an associated method for confirming the presence or absence of closures in a closure nest inside an aseptic chamber. The apparatus comprises a topographical profiler disposed to monitor the closure nests. Vertical displacements in topographical maps obtained by the profiler are compared with information from a database about the nest and closure combinations. Vertical displacements falling outside predetermined upper and lower bounds are deemed absences of closures. The topographical profiler may be disposed outside the aseptic chamber. The system may be automated via a controller and suitable software. In some embodiments the nests and disposed in the monitored area by robotic articulated arms. In other embodiments the closure nests are moved by vacuum pickup systems. The system and method may also be employed to assess the suitability of a closure nest for closing in an aseptic chamber containers in a container nest.

A hazardous drug deactivation wipe kit includes a first pouch having a one-way valve coupled to an end thereof, a second pouch, and a third pouch. The first pouch contains a wipe saturated in a hypochlorite solution, the second pouch contains a wipe saturated in thiosulfate solution, and the third pouch contains a wipe saturated in isopropyl alcohol solution. The deactivation wipe kit may be used in a clean room to deactivate most hazardous drugs on a work surface.

A hazardous drug deactivation wipe kit includes a first pouch having a one-way valve coupled to an end thereof, a second pouch, and a third pouch. The first pouch contains a wipe saturated in a hypochlorite solution, the second pouch contains a wipe saturated in thiosulfate solution, and the third pouch contains a wipe saturated in isopropyl alcohol solution. The deactivation wipe kit may be used in a clean room to deactivate most hazardous drugs on a work surface.

A device is for sterilization by electron beam irradiation of flexible bags, in particular flexible bags of the type that can contain solutions of human plasma proteins for therapeutic use. A sterilization method includes irradiating flexible bags by electron beam irradiation. An in-line method for filling flexible can use the sterilization device and method.