Abstract: For an effective separation of more than one kind of particle from a mixture, a plurality of separation stages are provided, arranged in series. Mixer elements may be disposed along the flow path to disturb the sedimenting particles, to release entrained lighter particles. Further, the separation channel may widen near the particle recovery port(s), to well suspend lighter particles in the fluid as denser particles are extracted and/or to allow gravitational forces to more effectively influence particle movement. In an example embodiment one stage utilizes Coriolis force in a narrow, radial passage for concentrating and agglomerating particles. The serial separation stages may be communicated with a radially inward extending passage to limit undesirable particle spill-over.

Abstract: A filter, in particular for the separation of leucocytes from further blood components, has an outer sheath, at least one intermediate layer which is a component of a frame or which forms a frame, an inlet chamber which is in communication with an inlet for the medium to be filtered, an outlet chamber which is in communication with an outlet for the filtrate, and a filter material which separates the inlet chamber from the outlet chamber. The filter is particularly low in dead space and can be centrifuged in a simple manner since the filter material is encompassed between the outer sheath and the intermediate layer.

Abstract: For an effective separation of more than one kind of particle from a mixture, a plurality of separation stages are provided, arranged in series. Mixer elements may be disposed along the flow path to disturb the sedimenting particles, to release entrained lighter particles. Further, the separation channel may widen near the particle recovery port(s), to well suspend lighter particles in the fluid as denser particles are extracted and/or to allow gravitational forces to more effectively influence particle movement. In an example embodiment one stage utilizes Coriolis force in a narrow, radial passage for concentrating and agglomerating particles. The serial separation stages may be communicated with a radially inward extending passage to limit undesirable particle spill-over.