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Mixing in a 250L jacketed vessel
6

Mixing in a 250L jacketed vessel

Mixing in a 250L jacketed vessel

(OP)
I need websites or links to a "Best Practices" type of site that lists/summarizes optimum mixing design principles for a small, 250L, open-to-the atmosphere vessel.  For example, the presence of a good vortex doesn't indicate good mixing, actually, quite the opposite.  Baffles help optimize mixing, etc.  I'm getting a lot of 2nd hand info at work without technical references and I want to find technical references to confirm.  I've had no luck doing internet searching - I get a lot of Fluid Dynamics hits, but not on the specific topic I need. Thanks!

RE: Mixing in a 250L jacketed vessel

I am not aware of a website with the technical information you are seeking at this time.  I do, however, have reprints of magazine articles discussing this subject in some detail.  Chemical Engineering and Chemical Processing have both published a number of articles on the subject.

Chemineer has two reprint packages available, "Liquid Agitation", and "Advanced Liquid Agitation" that are collections of reprints from Chemical Engineering magazine.  You could request these at their website, www.chemineer.com.

The questions of the optimum design principles for your application will depend on the nature of your agitation problem (i.e. blending, solids suspension, chemical reaction, etc), the properities of the liquids and the geometry of the tank.  The question of baffles also depends on the orientation of the agitator.  An angle mounted agitator can perform well, particularly in a small tank, without baffles provided it is located properly.

RE: Mixing in a 250L jacketed vessel

I think our friend jhelm is spot on in what he said; all good and sound advice. I found a textbook which is useful and will give you a good grounding on the subject of mixing is:"Mixing in the process industries" Editors N.Harnby, MF Edwards, AW Nienow, Butterworth, 1997, ISBN 0 7506 3760 9.

RE: Mixing in a 250L jacketed vessel

Another excellent text book is "Fluid Mixing Technology" by
James Oldshue (McGraw Hill Publications)

RE: Mixing in a 250L jacketed vessel

4
I used to work for a major mixer manufacturer and I know for a fact that the three major manufacturers have publications addressing "portable" mixer configurations.

Some of the basics are:

For fluid with viscosities under 10,000 Cp, baffles are highly recommended.  There should be four baffles, 90 degrees apart.  The baffles should be 1/12th the tank diameter in width and should be spaced off the wall by 1/5th the baffle width.  The off wall spacing helps to eliminate dead zones.  If baffles are used, the mixer should be mounted in the vertical position in the center of the tank.

If baffles are not used, the mixer should be mounted on an angle, ~15 degrees to the right and positioned off center.  This breaks up the symetry of the tank and simulates baffles although not nearly as good as baffles.

The pupose of baffles is to prevent solid body rotation, all points in the tank are moving at the same angular velocity and no top to bottom turnover.  The formation of a large central vortex is a characteristic of solid body rotation.  However small vortices which travel around the fluid surface, collapse and reform are more a function of the level of agitation.  Violent and vigorous agitation will have these vortices present.  In fact, they are desired for processes which require solids addition from the liquid surface.

The impellers are located at different positions depending on the design.  Axial flow impellers, those pumping parallel to the shaft should be positioned between 0.5 and 1.5 impeller diameters off the bottom of the tank.  Radial flow impellers, those pumping perpendicular to the shaft can be positioned just inches off the bottom.  If multiple impellers are used, the spacing will depend on the liquid height to tank diameter ratio.  Care must be taken to prevent impeller spacings on 1 impeller diameter.  This can lead to a cancellation of flow.

Torque is one of the most important factors.  A large diameter slow spinning impeller is much better for blending than a small diameter fast spinning impeller at equal power levels.  Torque = Work.

Impeller diameters for relatively low viscosities should be between 0.25 and 0.45 times the tank diameter with some exceptions.

Regards,

Kevin Macey
kmacey@mediaone.net

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