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The process of centrifuge separation generally includes three types: centrifugal filtration, centrifugal sedimentation, and high center separation.
The centrifugal filtration process is commonly used to separate solid-liquid mixtures with a large amount of solids and particles. The separation process can generally be divided into three stages: the first stage, solid particles are deposited onto the inner wall of the drum by centrifugal force to form a filter residue layer, and the filtrate is also filtered out through the mesh of the drum by centrifugal force. In the second stage, the filter residue layer is compressed under centrifugal force and the filter hydraulic pressure contained inside is squeezed out. In the third stage, the liquid contained in the gap of the filter residue layer continues to be discharged under centrifugal force, further drying the filter residue.
The centrifugal sedimentation process can be used to separate suspensions containing small solid forest particles. The separation process can generally be divided into two stages: the first stage, where solid particles are deposited onto the inner wall of the drum by centrifugal force. In the second stage, the particle layer that settles on the drum wall is compressed under centrifugal force. When the solid content in the suspension is high, a large amount of settling particles accumulate, and the slag layer quickly thickens, thus requiring continuous slag discharge. When the solid content in the suspension is reported to be low, it can be seen as the free settlement of a single particle under centrifugal force, and the growth of the slag layer is slow. Intermittent slag discharge method, also known as centrifugal clarification process, can be used.
The centrifugal separation process is the use of rice to separate emulsions formed by liquids with different densities. Under the action of centrifugal force, the liquids are layered according to the density differences and then extracted separately.
Centrifuge clarification and centrifugal separation, due to the small amount of solid separated or both being liquids during the process, are easier to perform continuous operations of feeding and discharging, but require a high separation factor for good separation. This type of centrifuge is also known as a separator.