Embodiments are directed to methods and apparatuses for ensuring that mechanisms that are used to position components of an apheresis machine are not broken as a result of rotation of a centrifuge. In embodiments, a safety mechanism is provided that contacts components of the centrifuge and pushes them into a position to ensure that they do not break when the centrifuge is operated at high rpm.

Embodiments are directed to methods and apparatuses for ensuring that mechanisms that are used to position components of an apheresis machine are not broken as a result of rotation of a centrifuge. In embodiments, a safety mechanism is provided that contacts components of the centrifuge and pushes them into a position to ensure that they do not break when the centrifuge is operated at high rpm.

The present invention provides a liquids separation kit that has a control unit on a container body to selectively control the separation or conduction between a first room and outside the container body and between the first room and a second room, thereby easily obtaining a first component which is perhaps highly concentrated after separation process.

A solid-bowl centrifuge screw with a screw hub with a first welding layer applied to a base, and at least a second welding layer applied to the first welding layers. Thus, the screw hub is produced by a shaping build-up welding method.

A solid-bowl centrifuge screw with a screw flight is provided. The screw flight has at least a first welding layer on a base body of the solid-bowl centrifuge and at least a second welding layer on the first welding layer. Thus, plural welding layers are disposed successively on one another and are applied by shaping build-up welding.

A shot peening apparatus includes a first tank. The first tank includes a swirl flow generating mechanism and a suction port. The swirl flow generating mechanism swirls a waste liquid in the circumferential direction. The suction port is disposed at the axial center of the first tank. The suction port opens toward a bottom wall and suctions the waste liquid. A plurality of blade members are provided inside the first tank. The plurality of blade members hinders the waste liquid from swirling in the first tank.

Provided is a centrifuge apparatus for a processing cartridge, including a rotary plate and at least one cartridge holder, and the cartridge holder is rotatable around its centre axis and arranged off-centre the centre axis of the rotary plate and comprises an inner side wall surrounding a through-going passage, wherein the through-going passage is able to accommodate the processing cartridge; and the inner side wall includes a resilient locking assembly for interaction with at least one cooperating first abutting surface on the processing cartridge, such that the processing cartridge may be inserted into the through-going passage and releasably secured by the locking assembly; and at least one stopping element for interaction with at least one cooperating second abutting surface on the processing cartridge, the at least one stopping element being arranged to retain the processing cartridge at a desired vertical level when the cartridge is releasably secured.

Provided is a centrifuge apparatus for a processing cartridge, including a rotary plate and at least one cartridge holder, and the cartridge holder is rotatable around its centre axis and arranged off-centre the centre axis of the rotary plate and comprises an inner side wall surrounding a through-going passage, wherein the through-going passage is able to accommodate the processing cartridge; and the inner side wall includes a resilient locking assembly for interaction with at least one cooperating first abutting surface on the processing cartridge, such that the processing cartridge may be inserted into the through-going passage and releasably secured by the locking assembly; and at least one stopping element for interaction with at least one cooperating second abutting surface on the processing cartridge, the at least one stopping element being arranged to retain the processing cartridge at a desired vertical level when the cartridge is releasably secured.

A method for separating a cell culture mixture utilizes a centrifugal separator including a stationary frame, a rotatable assembly and a drive unit for rotating the rotatable assembly relative the frame around a vertical axis of rotation. The rotatable assembly includes a rotor casing enclosing a separation space in which a stack of separation discs is arranged to rotate around an axis of rotation. The rotor casing includes a mechanically hermetically sealed inlet for supply of the cell culture mixture to the separation space and first and second mechanically hermetically sealed liquid outlets. The second mechanically hermetically sealed outlet is arranged at an axial end of the rotor casing and arranged so that the separated cell phase is discharged at the rotational axis.

The invention in at least one embodiment includes a system for treating water having an intake module, a vortex module, a disk-pack module, and a motor module. In at least one embodiment, a water system includes vortex housing having an interior wall defining a vortex chamber in fluid communication with the expansion chamber of said disk-pack turbine and inlets into the vortex chamber, and the vortex chamber having an upper section with a bowl or modified concave hyperbolic shape into which fluid is received from said inlets and a lower section with a conical or funnel shape with a steep vertical angle of change that opens into expansion chamber. In at least one further embodiment, the disk-pack module includes a disk-pack turbine having a plurality of disks having at least one waveform present on at least one of the disks.