Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Mixer double cone

Figure 11.6 Tumbling mixers V-mixer double cone mixer and rotating cube mixer... Figure 11.6 Tumbling mixers V-mixer double cone mixer and rotating cube mixer...
Y mixer Double cone Ribbon blender Fluidized mixer Nauta mixer... [Pg.22]

Sohd—sohd blending can be accompHshed by a number of techniques. Some of the most common iaclude mechanical agitatioa which iacludes devices such as ribboa Headers, impellers, paddle mixers, orbiting screws, etc a rotary fixed container which iacludes twia-sheU (Vee) and double-cone blenders and fluidization, ia which air is used to Head some fine powders. [Pg.562]

With hafQes Horizontal drum Double cone revolving around long axis Twin shell Ciihe Twin rotor Tiirhine Paddle mixer Sifter (tiirhosifter) Attrition mill Elevator loading Pneumatic conveying Vibrating... [Pg.1764]

Carefully identify at least 10 sampling locations in the blender to represent potential areas of poor blending. For example, in tumbling blenders (such as V-blenders, double cones, or drum mixers), samples should be selected from at least two depths along the axis of the blender. For convective blenders (such as a ribbon blender), a special effort should be made to implement uniform volumetric sampling to include the corners and discharge area (at least 20 locations are recommended to adequately validate convective blenders). [Pg.34]

Charge into a double-cone mixer the mixture from step 3 and add azithromycin and flavors. Mix for 15 minutes. [Pg.86]

Double-Cone Mixer. This term may be applied to the " Twin-Shell laboratory blenders... [Pg.433]

Still another mixing device can be used in explosives industry- It is the tumbling mixer which, accdg to Perry (Ref 7, pi212), exists in three varieties a) " tumbling barrel or "ball mill (Ref 7, Fig 32) b) "double-cone mixer (Fig 33) and c)... [Pg.452]

Figure 10.15. Some mixers and blenders for powders and pastes, (a) Ribbon blender for powders, (b) Flow pattern in a double cone blender rotating on a horizontal axis, (c) Twin shell (Vee-type) agglomerate breaking and liquid injection are shown on the broken line, (d) Twin rotor available with jacket and hollow screws for heat transfer, (e) Batch muller. (f) Twin mullers operated continuously, (g) Double-arm mixer and kneader (Baker-Perkins Inc.), (h) Some types of blades for the double-arm kneader (Baker—Perkins Irtc.). Figure 10.15. Some mixers and blenders for powders and pastes, (a) Ribbon blender for powders, (b) Flow pattern in a double cone blender rotating on a horizontal axis, (c) Twin shell (Vee-type) agglomerate breaking and liquid injection are shown on the broken line, (d) Twin rotor available with jacket and hollow screws for heat transfer, (e) Batch muller. (f) Twin mullers operated continuously, (g) Double-arm mixer and kneader (Baker-Perkins Inc.), (h) Some types of blades for the double-arm kneader (Baker—Perkins Irtc.).
Double cone revolving 56 25 11.5 Mixer can be tilted. Rear end charger. [Pg.1527]

Industrial equipment. Rotating-shell mixers or tumbling mixers are shown in Fig. 3. Drum-type, cubical-shaped, double-cone, and twin-shell blenders with their axis of rotation horizontal to the center of the drum on its axis increase crossflow and improve the mixing action. Cubical and polyhedron-shaped... [Pg.2976]

FIG. 21-157 Examples of low-shear mixers used in granulation, (a) Ribbon blender (h) planetary mixer (c) orbiting screw mixer (d) sigma blender (e) double-cone blender with baffles (/) v blender with breaker bar. (See also Solids Mixing. ) [( ) and (d), Chirkot and Propst, in Parikh (ed.). Handbook of Pharmaceutical Granulation Technology, Taylor 6- Francis, 2005.]... [Pg.2366]

The two components (W and C) must be blended thoroughly prior to carburization. This is done in different types of equipment, like V or double cone blenders, mixing ball mills, or high-energy mixers. An even blend is of importance because, during carburization, carbon atoms can only move via diffusion or as methane molecules over very short distances. Pelletizing or compacting enhances diffusion and increases the furnace capacity. [Pg.325]

Fig. 32. Diagrammatic outlines of powder mixers (Al). A, horizontal rotating cylinder B, cylinder—off center axis of rotation C, similar to B but hexagonal shape D, rotating cube E,G, double cone F, pyramid H, twin shell I,J, Y cone. Fig. 32. Diagrammatic outlines of powder mixers (Al). A, horizontal rotating cylinder B, cylinder—off center axis of rotation C, similar to B but hexagonal shape D, rotating cube E,G, double cone F, pyramid H, twin shell I,J, Y cone.
For free-flowing particles that do not segregate, use mixers where outside shell moves (cone, double cone, zigzag). For pastes, plastics, and powders that tend to segregate, use mixers with outside shell fixed (ribbon, edge mill, double arm, Banbury, extruder). [Pg.1429]

See other pages where Mixer double cone is mentioned: [Pg.456]    [Pg.256]    [Pg.774]    [Pg.434]    [Pg.590]    [Pg.193]    [Pg.196]    [Pg.774]    [Pg.2976]    [Pg.3205]    [Pg.3898]    [Pg.3898]    [Pg.434]    [Pg.450]    [Pg.774]    [Pg.1386]    [Pg.2365]    [Pg.65]    [Pg.354]    [Pg.5]    [Pg.316]    [Pg.316]    [Pg.620]    [Pg.1695]   


SEARCH



Cone mixer

Double cone

© 2024 chempedia.info