A method for treating open cut edges of a packaging sleeve, blank or web material of a packaging material rolled up into a roll, in particular a composite cardboard/plastics material, by applying or introducing a disinfectant-containing treatment agent to or into the outer region of the cut edges. To provide a particularly resource-efficient composite packaging and a production method required for this purpose, it is proposed that at least some of the treatment agent is not applied directly to the cut edges, but that a load carrier is loaded, which load carrier absorbs the treatment agent so that an actively sterilising atmosphere which is created then acts on the open cut edges of the packaging sleeve, blank or web material and performs the desired sterilisation. The invention also relates to a packaging material, to a combipack produced therefrom and to a container for receiving the packaging material.

A bulk container vacuum filing system includes a base portion and movable portion. The bulk container vacuum filing system serves to position and maintain a bulk container within a chamber, seal the interior of the chamber, dispense material into the bulk container, and draw a vacuum or create positive pressure within the chamber and/or the bulk container during at least a portion of the dispensing process. Base portion of the bulk container vacuum filing system includes a vacuum source and a material supply line along with electronic controls and sensors for operating and monitoring the filling process. The moveable portion include a support structure for supporting the bulk container, such as a bulk bag, in the proper place.

A packaging system includes a bag feeding device for forming a packaging bag series having a continuous bag portion partitioned by a side seal portion from a long film and a bag mouth opening/closing device having a conveying path formed between a conveying device for pulling and conveying the packaging bag series with first grips and a guide rail parallel to the conveying path. The movers traveling on the guide rail has second grips for gripping the side seal portion. By controlling and adjusting the distance between one mover and the mover immediately after that, an upper end opening of the bag portion is opened or closed according to various processes of the packaging process.

One embodiment of the present invention provides a method for processing plastic containers within an open aseptic converter chamber comprising a sanitized environment, a supply line, a sanitizer device, a perforator device, a sealing device, and a conveyer. During operation, the method includes: providing and filling a container with heated or heatable liquid including water; sealing the container with a seal or cap; cooling the container to create a first headspace pressure; enclosing the container within the chamber; creating an opening in the seal or cap within a sanitized environment of the perforator device; increasing the first headspace pressure to a second headspace pressure by introduction of a sanitized fluid; resealing the container within a sanitized environment of the sealing device; and, transporting or conveying the sealed container away from the chamber.

A method of packaging water-reactive aluminum may include directing at least one discrete object into a container, the at least one discrete object including an aluminum alloy, the aluminum alloy plastically deformed and non-recrystallized, introducing, into the container, a liquid metal alloy including one or more activation metals, enclosing the at least one discrete object and the liquid metal alloy with one another in the container to form a kit, for a predetermined period, exposing the kit to a heating environment, and agitating the at least one discrete object and the liquid metal alloy in the container in the heating environment during the predetermined period to form the kit into a packaged unit of water-reactive aluminum.

A method and apparatus for manufacturing a double bag (20) are disclosed. The method comprises placing an inner bag (30) in an outer bag (40) through an open top end (42), inserting a gas feeding tube (50) between through the open top end (42), feeding a head space (44) between the inner bag (30) and the outer bag (40) with an inert gas through the gas feeding tube (50), extracting the gas feeding tube (50), and sealing the top end (42). A gas box (80) surrounds the open top end (42) to reduce the risk of oxygen entering the head space (44).

A medical vial filling system is adapted to fill a medical vial with a solution and cap the filled medical vial. A purging system includes a manifold disposed between a filling station and a capping station. The manifold includes a filling inlet port and a plurality of output ports. The output ports are positioned in a space proximate the filling station and in a space over the transport mechanism. A stoppering block includes a capping chamber for receiving a bushing positioned at the capping station. The stoppering block comprises a stoppering inlet port, a first nozzle opening into the capping chamber and a second nozzle extending into the capping chamber and directed into the medical vial when the medical vial is position in the capping station. A supply of non-reactive gas at the filling inlet port directs flow of the non-reactive gas out the manifold outlet ports to evacuate air and substitute the non-reactive gas in the filled medical vial and at the stoppering inlet port directs flow of the non-reactive gas in a flood zone surround a space above the medical vials when the medical vial is positioned in the capping station and in a stream directed into the medical vial when the medical vial is positioned in the capping station.

Packaging assembly for the transport of coffee in the form of roasted beans, comprising: at least one impermeable bag, impermeable at least to oxygen and water vapour; said at least one impermeable bag being flexible and sealable in a watertight manner to prevent the introduction of fluids or gases; at least one unidirectional valve sealingly applied to said at least one impermeable bag which only allows gas to escape from the impermeable bag preventing the entry of gas into the impermeable bag, wherein said at least one unidirectional valve makes it possible to achieve an over-pressure inside the impermeable bag variable from 3 to 60 mbar.

A packaging system includes a bag feeding device for forming a packaging bag series having a continuous bag portion partitioned by a side seal portion from a long film and a bag mouth opening/closing device having a conveying path formed between a conveying device for pulling and conveying the packaging bag series with first grips and a guide rail parallel to the conveying path. The movers traveling on the guide rail has second grips for gripping the side seal portion. By controlling and adjusting the distance between one mover and the mover immediately after that, an upper end opening of the bag portion is opened or closed according to various processes of the packaging process.

The present invention relates to a process for preparation of a composition comprising gas microbubbles. More particularly the invention relates to a process for filling of such composition into a container. The composition prepared is preferably an ultrasound contrast media composition made available in a container wherein the headspace of the container comprises the same gas as the gas of the microbubbles.