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6. Small particles with diameter 102mm and density 1.03g/cc are suspended in liquid of density 1.00g/cc. The viscosity of the liquid is 1.25cp. A tubular

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6. Small particles with diameter 102mm and density 1.03g/cc are suspended in liquid of density 1.00g/cc. The viscosity of the liquid is 1.25cp. A tubular bowl centrifuge of length 70cm and radius 11.5cm is used to separate the small fine particles. If the centrifuge is operated at 10,000rpm, estimate the feed flow rate at which the small particles are just remove from the suspension? Assume that the distance between axis of rotation to particle location in the liquid interface (r0) and distance between the wall of the centrifuge from axis of rotation (i.e., axis of rotation to particle located on the wall of the centrifuge bowl) are same.(Answer: Q=8.504Lit/sec )

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