Centrifugal separation apparatus
First Claim
1. A centrifugal separating apparatus for separating a heavy phase from a light phase in a fluid mixture of such phases comprising:
- a housing having an outlet;
a plurality of apertured spaced apart plates with the apertures of each of said plates having at least one lateral edge and being located on said each plate to be positioned thereon with respect to apertures in adjacent plates to locate those apertures on at least one uninterrupted, continuous helical path extending through said plates for substantially the entire length of said housing;
means for feeding a fluid mixture of light and heavy phases to said housing for separating said heavy phase from said light phase;
mixture moving means for moving said fluid mixture through said housing and through said apertures of said plates to flow from one aperture to an adjacent aperture along said uninterrupted, continuous helical path on which said apertures are located with flow along said helical path creating a helical path centrifugal force on fluid flowing along said helical path which is in excess of any centrifugal force exerted on any fluid flowing in said housing outside said helical path, said helical path centrifugal force creating a centrifugal separation of heavy phase from light phase in fluid flowing along said helical path to separate heavy phase from light phase and cause separated heavy phase to exit from said helical path, said plates each having means for contacting heavy phase exiting said helical path and preventing such exiting heavy phase from moving toward said housing outlet and guiding such exiting heavy phase under the influence of the centrifugal force existing outside said helical path toward said housing and a central deflector mounted on the plates adjacent to each aperture lateral edge and wherein each opening is defined to present at least one lateral edge extended by the central defector with fluid forces in the fluid flowing along said helical path preventing said exiting heavy phase from re-entering said helical path;
a heavy phase collecting means fluidly connected to said housing to collect said exiting heavy phase guided thereto by said plates and the centrifugal force exerted on fluid located outside said helical path; and
a light phase discharge means fluidly connected to said helical path to collect light phase which has followed said helical path through said plates.
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Accused Products
Abstract
The invention relates to a process for multiple centrifugal separation of a mixture of phases and to an apparatus for carrying such process out. The invention is applicable to a mixture of phases of any states, said apparatus comprising, disposed coaxially and moved in rotation in a fixed enclosure, a fan adapted to create a depression upstream, a rotary distributor converting the pressure drop resulting from the action of the fan on the upstream pressure into a speed of rotation of the mixture added in the same direction to the positive speed of rotation of said distributor, and a rotor comprising elements for guiding running streams and defining still layers adjacent to and outside of such running streams. Heavy particles located in the still layers are conducted out of the device.
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Citations
6 Claims
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1. A centrifugal separating apparatus for separating a heavy phase from a light phase in a fluid mixture of such phases comprising:
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a housing having an outlet; a plurality of apertured spaced apart plates with the apertures of each of said plates having at least one lateral edge and being located on said each plate to be positioned thereon with respect to apertures in adjacent plates to locate those apertures on at least one uninterrupted, continuous helical path extending through said plates for substantially the entire length of said housing; means for feeding a fluid mixture of light and heavy phases to said housing for separating said heavy phase from said light phase; mixture moving means for moving said fluid mixture through said housing and through said apertures of said plates to flow from one aperture to an adjacent aperture along said uninterrupted, continuous helical path on which said apertures are located with flow along said helical path creating a helical path centrifugal force on fluid flowing along said helical path which is in excess of any centrifugal force exerted on any fluid flowing in said housing outside said helical path, said helical path centrifugal force creating a centrifugal separation of heavy phase from light phase in fluid flowing along said helical path to separate heavy phase from light phase and cause separated heavy phase to exit from said helical path, said plates each having means for contacting heavy phase exiting said helical path and preventing such exiting heavy phase from moving toward said housing outlet and guiding such exiting heavy phase under the influence of the centrifugal force existing outside said helical path toward said housing and a central deflector mounted on the plates adjacent to each aperture lateral edge and wherein each opening is defined to present at least one lateral edge extended by the central defector with fluid forces in the fluid flowing along said helical path preventing said exiting heavy phase from re-entering said helical path; a heavy phase collecting means fluidly connected to said housing to collect said exiting heavy phase guided thereto by said plates and the centrifugal force exerted on fluid located outside said helical path; and a light phase discharge means fluidly connected to said helical path to collect light phase which has followed said helical path through said plates. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification