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![impeller and the stationary housing. Many ingenious designs are available that use various configurations with the purpose of increasing the probability that the solid par-ticles or liquid droplets travel through the rotor/stator zones where maximum shearing occurs. Almost all designs have some form of teeth or blades, which are meshed into an accompanying stationary housing as illustrated in Fig. 28. Of particular importance is the fact that, when a mixture containing solid particles or agglomerations or emulsion droplets is pumped through a fixed gap rotor/stator mixer, not all of the droplets or particles pass through the highest shearing zones. Some par-ticles passing through the machine may escape the rotor/stator gaps and be exposed only to some of the lower shear zones. The more open the design of the rotor/stator, the Fig. 28 Internal parts of rotor/stator mixer showing meshed teeth. (From Ref. 31.) impeller and the stationary housing. Many ingenious designs are available that use various configurations with the purpose of increasing the probability that the solid par-ticles or liquid droplets travel through the rotor/stator zones where maximum shearing occurs. Almost all designs have some form of teeth or blades, which are meshed into an accompanying stationary housing as illustrated in Fig. 28. Of particular importance is the fact that, when a mixture containing solid particles or agglomerations or emulsion droplets is pumped through a fixed gap rotor/stator mixer, not all of the droplets or particles pass through the highest shearing zones. Some par-ticles passing through the machine may escape the rotor/stator gaps and be exposed only to some of the lower shear zones. The more open the design of the rotor/stator, the Fig. 28 Internal parts of rotor/stator mixer showing meshed teeth. (From Ref. 31.)](https://images.tandf.co.uk/common/jackets/crclarge/978042913/9780429135606.jpg)
Chapter
impeller and the stationary housing. Many ingenious designs are available that use various configurations with the purpose of increasing the probability that the solid par-ticles or liquid droplets travel through the rotor/stator zones where maximum shearing occurs. Almost all designs have some form of teeth or blades, which are meshed into an accompanying stationary housing as illustrated in Fig. 28. Of particular importance is the fact that, when a mixture containing solid particles or agglomerations or emulsion droplets is pumped through a fixed gap rotor/stator mixer, not all of the droplets or particles pass through the highest shearing zones. Some par-ticles passing through the machine may escape the rotor/stator gaps and be exposed only to some of the lower shear zones. The more open the design of the rotor/stator, the Fig. 28 Internal parts of rotor/stator mixer showing meshed teeth. (From Ref. 31.)
DOI link for impeller and the stationary housing. Many ingenious designs are available that use various configurations with the purpose of increasing the probability that the solid par-ticles or liquid droplets travel through the rotor/stator zones where maximum shearing occurs. Almost all designs have some form of teeth or blades, which are meshed into an accompanying stationary housing as illustrated in Fig. 28. Of particular importance is the fact that, when a mixture containing solid particles or agglomerations or emulsion droplets is pumped through a fixed gap rotor/stator mixer, not all of the droplets or particles pass through the highest shearing zones. Some par-ticles passing through the machine may escape the rotor/stator gaps and be exposed only to some of the lower shear zones. The more open the design of the rotor/stator, the Fig. 28 Internal parts of rotor/stator mixer showing meshed teeth. (From Ref. 31.)
impeller and the stationary housing. Many ingenious designs are available that use various configurations with the purpose of increasing the probability that the solid par-ticles or liquid droplets travel through the rotor/stator zones where maximum shearing occurs. Almost all designs have some form of teeth or blades, which are meshed into an accompanying stationary housing as illustrated in Fig. 28. Of particular importance is the fact that, when a mixture containing solid particles or agglomerations or emulsion droplets is pumped through a fixed gap rotor/stator mixer, not all of the droplets or particles pass through the highest shearing zones. Some par-ticles passing through the machine may escape the rotor/stator gaps and be exposed only to some of the lower shear zones. The more open the design of the rotor/stator, the Fig. 28 Internal parts of rotor/stator mixer showing meshed teeth. (From Ref. 31.)
ABSTRACT
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