According to embodiments of the present invention, a material transfer station provides a base frame equipped with a table member, a container tipper, an operator interface, and a connection to a power source. In operation, a destination container is positioned beneath the table member, and the container tipper holds a supply container. Solid matter may be conveyed from the supply container into the destination container through an opening in the table member. Modules may be attached to provide additional functionality, such as a receiving module, a containment module, a vibratory screener, a flexible film isolator, and a nitrogen purge system.

According to embodiments of the present invention, a material transfer station provides a base frame equipped with a table member, a container tipper, an operator interface, and a connection to a power source. In operation, a destination container is positioned beneath the table member, and the container tipper holds a supply container. Solid matter may be conveyed from the supply container into the destination container through an opening in the table member. Modules may be attached to provide additional functionality, such as a receiving module, a containment module, a vibratory screener, a flexible film isolator, and a nitrogen purge system.

A method is provided for filling a bag-on-valve can with a hypochlorous acid solution, including: providing a hypochlorous acid manufacturing apparatus having an anolyte storage tank in which the hypochlorous acid solution is stored; providing a bag-on-valve canning apparatus having a fluid inlet; connecting a pipe between the anolyte storage tank of the hypochlorous acid manufacturing apparatus and the fluid inlet on the bag-on-valve canning apparatus in order to provide the hypochlorous acid solution directly from the hypochlorous acid manufacturing apparatus to the bag-on-valve canning apparatus; providing a bag-on-valve can having a can in which a bag and a valve are disposed, wherein the valve seals the bag during non-use, the bag-on-valve can further including an actuator for actuating the valve; and filling the bag with the hypochlorous acid solution provided through the pipe. An apparatus is also disclosed for producing and canning a hypochlorous acid solution.

An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck with a rim defining an opening; a cap assembly supported on the bottle, the cap assembly including a funnel having a first portion and a second portion, the first portion being insertable within the interior of the bottle and the second portion engaging a portion of the bottle to support the funnel above the rim, the funnel defining a bore that fluidly communicates with the hollow interior of the bottle; a self-sealing membrane that covers the bore formed by the funnel to selectively seal the hollow interior of the bottle; a cap attachable to the bottle, the cap including a cover portion that extends at least partially over the self-sealing membrane to restrain movement thereof, the cover portion being axially spaced from the self-sealing membrane to define a gap that permits axial movement of the self-sealing membrane to selectively open the bottle to fluid communication outside of the bottle.

An evacuated bottle system including a bottle defining a hollow interior, the bottle having a neck with a rim defining an opening; a cap assembly supported on the bottle, the cap assembly including a funnel having a first portion and a second portion, the first portion being insertable within the interior of the bottle and the second portion engaging a portion of the bottle to support the funnel above the rim, the funnel defining a bore that fluidly communicates with the hollow interior of the bottle; a self-sealing membrane that covers the bore formed by the funnel to selectively seal the hollow interior of the bottle; a cap attachable to the bottle, the cap including a cover portion that extends at least partially over the self-sealing membrane to restrain movement thereof, the cover portion being axially spaced from the self-sealing membrane to define a gap that permits axial movement of the self-sealing membrane to selectively open the bottle to fluid communication outside of the bottle.

A plastic aerosol container includes a main body portion that is constructed and arranged to withstand aerosol pressurization within a range that is about 50-300 psig. The plastic aerosol container also includes a finish portion that is unitary with the main body portion. The finish portion may be threaded or unthreaded. The finish portion has a side wall, an upper sealing surface, at least one helical thread and a support ledge beneath the helical thread. Reinforcement structure is positioned beneath the support ledge for reinforcing the finish portion against deformation due to the pressurization. A method of stabilizing a plastic aerosol container is also disclosed.

A packaging method for packaging elastomer parts (1), such as stoppers for pharmaceutical containers, the method comprising the following steps: packaging parts (1) in a primary bag (10) made of material that is substantially impermeable to gas; and introducing in said primary bag (10), a nitrogen-based atmosphere, with at least 80% nitrogen; said primary bag (10) being packaged in a secondary bag (20), with a vacuum being applied between said primary bag (10) and said secondary bag (20)

A packaging method for packaging elastomer parts (1), such as stoppers for pharmaceutical containers, the method comprising the following steps: packaging parts (1) in a primary bag (10) made of material that is substantially impermeable to gas; and introducing in said primary bag (10), a nitrogen-based atmosphere, with at least 80% nitrogen; said primary bag (10) being packaged in a secondary bag (20), with a vacuum being applied between said primary bag (10) and said secondary bag (20)

A method for transferring a viscous material into a syringe that has a plug dividing a syringe interior into a first sub-chamber and a second sub-chamber, where a radial clearance exists between the plug and the syringe, includes transferring the viscous material from a container into the first sub-chamber to fill the first sub-chamber while allowing air initially present within the first sub-chamber to flow into the second sub-chamber via the radial clearance, and flowing a first volume of the viscous material into but not through the radial clearance such that the viscosity of the first volume of the viscous material and the radial clearance cooperate to block a flow of a second volume of the viscous material into the radial clearance and prevent the second volume of the viscous material from leaking from the first sub-chamber into the second sub-chamber.

A method for transferring a viscous material into a syringe that has a plug dividing a syringe interior into a first sub-chamber and a second sub-chamber, where a radial clearance exists between the plug and the syringe, includes transferring the viscous material from a container into the first sub-chamber to fill the first sub-chamber while allowing air initially present within the first sub-chamber to flow into the second sub-chamber via the radial clearance, and flowing a first volume of the viscous material into but not through the radial clearance such that the viscosity of the first volume of the viscous material and the radial clearance cooperate to block a flow of a second volume of the viscous material into the radial clearance and prevent the second volume of the viscous material from leaking from the first sub-chamber into the second sub-chamber.