Admix Resources | Mixing Tips
Mixing Tips
As an industry thought leader, we’re always ready to share our knowledge and applications expertise with our customers. It’s part of our philosophy and commitment to ensure your success.Here we’ve outlined common mixing terminology, ingredients and challenges we’ve encountered over the years, along with basic mixer sizing, specifications, and guidance. Take advantage of our mixing knowledge to save yourself time and money and as always, contact us anytime to discuss your particular circumstances and needs.
Mixing
The generic term for the operation encompassing all the variations that follow.
Agitating
Typically defined as a low speed blending operation with turbine type blades or paddles.
Blending
Mixing or agitating two or more miscible liquids of similar viscosity (or solids only) and density, often done inside a vertical helical screw blender.
Dissolving
Where the dissolution of a solid in a liquid is necessary, as with salt or sugar solutions. Simple agitation techniques are normally sufficient if time is not a factor, although high shear techniques are required when other solids (ingredients) may block dissolution of the primary solid or when faster dissolution would be beneficial.
Dispersing
The action of scattering immiscible particles, droplets or gas bubbles in a matrix liquid. The results can properly be called dispersions, but more often they are given more specific names:
Suspension: when solid particles, usually above colloidal size, are dispersed
Emulsion: when droplets are dispersed, such as oil in water or water in oil
Lyosol: when air or gas bubbles are dispersed
Homogenizing
This term is usually applied to a very intense mixing action, but literally it only means that all components are so thoroughly mixed that they are “made alike.” This term should not be limited to the action of one particular type of equipment.
Hydrating
Many ingredients when used as binding or stabilizing agents will “swell” when activated by high shear and attach themselves to other molecules. Hydrocolloids such as gums, stabilizers, polymers, etc. require a high shear device to be thoroughly dispersed for 100% hydration.
More than Mixing – Size Reduction
In order to speed up the mixing process, modern machines introduce a high degree of kinetic energy. This very often results in a reduction of particle or droplet size. This can mean the break-up of agglomerations, and can be done in batch or in-line mode, or more typical is the shear action of tearing droplets apart or the crushing or slicing of solid particles.
- Make sure there is a good vortex and high bulk fluid velocity in tank with the liquid phase
- Add powder quickly – all at once!
Bridge-mounted Mixers
Cylindrical Tanks
Baffled: Place mixer dead center.
Unbaffled: Place mixer 1/6 to 1/4 tank diameter off center.
- 1/6 will provide strong vortex
- 1/4 will provide very little vortex
Square or Rectangle Tanks
Baffled or Unbaffled: Place mixer dead center.
Unsure? Contact us.
Clamp-mounted mixers: Typically limited to small portable mixers, clamp-mounts are usually on the side wall of the tank or a separate bracket attached to the tank or mixing vessel. General shaft position is at a 10 to 15 degree angle (from a side view, vertical position) into the tank. Also, for swivel-type clamps, the option is to angle the shaft at a 10 to 20 degree angle to the right, as viewed from the top looking down into the mixing tank.
High Shear Mixing
Optimal: One (1) mixing head diameter off bottom
1.5 to 2 mixing head diameters minimum coverage
Low Speed Agitation
As close as ½ impeller diameter off bottom
High Shear Mixing
Ratio of mixing head diameter (D) to tank diameter (T) should be 1/10th or greater.
Low Speed Agitation
Ratio of impeller diameter to mixing tank diameter should be 0.25 or better depending upon viscosity. High viscosity requires a minimum 0.35 – 0.4 ratio.