T.P. Elson scite author profile

Highly viscous, non-Newtonian Xanthan gum solutions and two transparent model fluids with similar rheological properties have been studied under aerated (up to I vvm) and unaerated conditions in a 0.29m diameter agitated vessel. Rushton disc turbines of size 113 and 112 of the tank diameter have been used alone and also in conjunction with 6-bladed, 45°-pitch axial Row turbines of the same size at speeds up to 24 rev/s. enabling specific power inputs of up to 15 W/kg to be imparted.Flow patterns were studied by flow visualisation and hot film anemometry. When the fluids have a yield stress, the fluid divides into a turbulent well-mixed cavern which increases in size with increasing speed with the remainder stagnant. A model for the size of the cavern fits the experimental data well lor both aerated and unaerated mixing. Large diameter combinations produce good mixing at about I to 2 W/kg which is about 113 to 114 of that required with small diameter combinations. Single disc turbine impellers are unsatisfactory.

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Flow dynamics in a draft-tube bubble column using various liquids

Wachi

Jones

Elson

1991

Chemical Engineering Science

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The Growth of Caverns Formed Around Rotating Impellers During the Mixing of a Yield Stress Fluid

Elson

1990

Chemical Engineering Communications

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Fall of spherical particles through non-Newtonian suspensions

Machač

Ulbrichová

Elson

et al. 1995

Chemical Engineering Science

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T.P. Elson

X-ray studies of cavern sizes and mixing performance with fluids possessing a yield stress

Cavern Sizes in Agitated Fluids With a Yield Stress

Flow dynamics in a draft-tube bubble column using various liquids

The Growth of Caverns Formed Around Rotating Impellers During the Mixing of a Yield Stress Fluid

Fall of spherical particles through non-Newtonian suspensions

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