A device for generating bubbles, comprising a porous material having at least one hydrophilic surface (1), arranged such that a liquid (7) in which the bubbles (6) are intended to be formed may contact the hydrophilic surface (1) and at least one hydrophobic surface (2), arranged such that a gas (5) used to generate the bubbles (6) may flow past the hydrophobic surface (2) before it flows past the hydrophilic surface (1). The device may be used for creating fine bubbles in numerous applications, such as wastewater treatment, plant cultivation, aquafarming, aeration systems, bioreactors, fermeters, oil extraction or fuel cells.

A system for performing a gas-liquid mass transfer includes a container bounding a compartment and having a top wall, a bottom wall, and an encircling sidewall extending therebetween. A tube has a first end and an opposing second end, the first end of the tube being disposed within the compartment of the container. A nozzle is disposed within the compartment of the container and has at least one outlet, the nozzle being coupled with the tube so that a gas can be passed through the tube and out the at least one outlet of the nozzle. The nozzle is sufficiently buoyant so that when a fluid is disposed within the compartment of the container, the nozzle floats on the fluid.

A packaging for a flexible container, in particular for a disposable bag for use in a bioreactor, including a bottom part for fixing a first portion of the container, a ceiling part for fixing an opposite second portion of the container, a receiving space which on a first side is defined by the bottom part and on an opposite second side is defined by the ceiling part, and struts arranged between the bottom part and the ceiling part, which fix a defined distance between the bottom part and the ceiling part.

A sparger assembly for a bioprocessing system includes a base and a plurality of spargers connected to the base, each sparger including a plurality of pores, the plurality of spargers each have a generally cylindrical shape. Each of the plurality of spargers includes a sidewall and a top, which define the cylindrical shape, the sidewall and the top each include a plurality of pores. The pores of the sidewall can be arranged around a circumference of the sidewall at an array of heights. Ridges may also be located on the sidewall above a respective array of pores.

the present invention relates to a magnetic mixer to which a disposable resin liquid pouch is applied instead of a metal tank, for accommodating and mixing liquids therein, to minimize cross-contamination of liquids to be mixed due to an unwashed residue, increase a magnetic coupling force between rotors for driving an impeller inside the liquid pouch and an impeller outside the liquid pouch by a magnetic coupling method, and prevent separation of the impeller in liquids to be mixed, and a magnetic mixing system.

The present invention relates to apparatus for manufacturing at least one liquid, by dissolving or suspending powders in solvents. The apparatus may be arranged for inclusion in a pellet coating system to supply the liquid to a downstream apparatus such as a Post Pellet Liquid Application (PPLA, 44). The apparatus includes: a mixing system, comprising a mixing pump (27), a mixing vessel (33) and piping for mixing substances located in the mixing vessel (33) by liquid recirculation; solvent supply means, comprising a supply tank (37) arranged to supply solvent to the mixing vessel (33); a feeding system, comprising a Hopper (32) for storing a first particulate material, a ramp arranged above a weighing tray (34) and a hopper vibrator (3.1) for feeding a first particulate material to the weighing tray (34); a weighing system located above the mixing vessel (33), the weighing system comprising the weighing tray (34), a weighing tray loadcell (5) for weighting a first particulate material and a weighing tray vibrator (4) for feeding a first particulate material to the mixing vessel (33); a blending vessel (40) to which a liquid comprising the first particulate material is transferred from the mixing vessel (33) and to which additional solvent may be added to reach a desired concentration of the first particulate material in the liquid; optionally a day tank (39) to which a liquid comprising the first particulate material is transferred from the blending vessel (40.1) for storage; and a control system, wherein a Programmable Logic Controller (PLC) (25) is arranged to receive signals from the weighing system and to control operation of at least part of the feed system according to the signals received from the weighing system to deliver a target mass of first and at least a second particulate material to the mixing vessel (33). The apparatus for manufacturing at least one liquid according to the invention may be connected to system for coating pellets, such as feed pellets. The system for coating pellets may include: the apparatus for manufacturing at least one liquid; a pellet source; a pellet coating device; means for feeding at least one liquid from the manufacturing apparatus to the pellet coating device; wherein the pellet coating device is arranged to apply the or each liquid to at least some of the pellets received from the pellet source. The present invention includes a method for manufacturing a liquid, by dissolving or suspending powders in solvents.

A multi-layered flexible sparger (100) that has a bottom film layer (102), a middle film layer (106), and a top film layer (110); a first inner mesh (104) disposed between the bottom film layer and the middle film layer; a second inner mesh (114) disposed between the middle film layer and the top film layer; and a port capable of delivering a gas to the multi-layered flexible sparger disposed between the top film layer and the bottom film layer, wherein the middle film layer comprises drill holes and the top film layer comprises drill holes.

A system for receiving a single-use vessel containing a mixing device has a support structure adapted to receive the single-use vessel and a drive-unit adapted to power, to control, or to power and control a mixing of contents of the single-use vessel when the single-use vessel is arranged in the support structure. The support structure and the drive-unit are provided as separate components that may be arranged both in an operating position, where the drive-unit is connectable to the mixing device of the single-use bag in the support structure, and in a separated position, where the drive-unit is separated from the support structure. The drive-unit comprises a tag reader that, in the operating position, is arranged to read a vessel tag of the single-use vessel arranged in the support structure.

The invention relates to a tubing device (40) for sterile media comprising a container (54) for storing sterile media, a discharge port (52) for discharging liquid sterile media, an inlet port (41) for introducing fluid into the tubing device and a multiple-way-connector (50), wherein the multiple-way-connector (50) is connected to the container (54), the discharge port (52) and the inlet port (41), and an apparatus (80) for preparing, mixing and discharging a sterile medium for use with a tubing device (40), comprising a water inlet port (41) for introducing water, a water outlet port (87) configured to be connected to the inlet port (41) of the tubing device (40), a fluid pump (82) for conveying the fluid, the fluid pump (82) is connected to the fluid inlet port (81) and the water outlet port (87) and a container support (88) for supporting the container (54) of the tubing device (40).