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Turbulent forward ― reverse mixing characteristics in vessel with multiple-turbine impellersWOZIWODZKI, Szymon.Journal of chemical technology and biotechnology (1986). 2013, Vol 88, Num 3, pp 483-490, issn 0268-2575, 8 p.Article

Measurement of coupled velocity and concentration fluctuations in the discharge flow of a Rushton turbine in a stirred tankBENAYAD, S; DAVID, R; COGNET, G et al.Chemical engineering and processing. 1985, Vol 19, Num 3, pp 157-165, issn 0255-2701Article

Hydrodynamics of a radially discharging impeller stream in agitated vesselsKOLAR, V; FILIP, P; CUREV, A. G et al.Chemical engineering communications (Print). 1984, Vol 27, Num 5-6, pp 323-326, issn 0098-6445Article

Shear rates on turbine impeller bladesWICHTERLE, K; KADLEC, M; ZAK, L et al.Chemical engineering communications (Print). 1984, Vol 26, Num 1-3, pp 25-32, issn 0098-6445Article

Suspension characteristics of large cylinders in agitated tanksTAY, M; DEUTSCHLANDER, B; TATTERSON, G et al.Chemical engineering communications (Print). 1984, Vol 29, Num 1-6, pp 89-99, issn 0098-6445Article

Flooding of disc turbines in gas-liquid dispersions: a new description of the phenomenonWARMOESKERKEN, M. M. C. G; SMITH, J. M.Chemical engineering science. 1985, Vol 40, Num 11, pp 2063-2071, issn 0009-2509Article

Simple explicit model of liquid mean flow in region above axial impellerHOSTALEK, M; FORT, I.Collection of Czechoslovak chemical communications. 1985, Vol 50, Num 11, pp 2396-2410, issn 0010-0765Article

Fluid motion and mixing in a gas-liquid contactor with turbine agitatorsNAGASE, Y; YASUI, H.Chemical engineering journal. 1983, Vol 27, Num 1, pp 37-47, issn 0300-9467Article

Characterization of trailing vortices generated by a Rushton turbineESCUDIE, Renaud; BOUYER, Denis; LINE, Alain et al.AIChE journal. 2004, Vol 50, Num 1, pp 75-86, issn 0001-1541, 12 p.Article

Unravelling the mysteries of shear-sensitive mixing systemsBOWEN, R. L. JR.Chemical engineering (New York, NY). 1986, Vol 93, Num 11, pp 55-63, issn 0009-2460Article

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The effect of scalling-up and hydrodynamic properties of stirring system on the kinetics of vegetable oil hydrogenationDEDEK, I; LINEK, J.Collection of Czechoslovak chemical communications. 1993, Vol 58, Num 2, pp 320-327, issn 0010-0765Article

Effect of viscosity on cavity formation and power characteristics of an agitated aerated Newtonian fluidÖZCAN, N. G; DECLOUX, M; BRUXELMANE, M et al.Chemical engineering research & design. 1990, Vol 68, Num 1, pp 63-68, issn 0263-8762Article

Particle Image Velocimetry Experiments and Large Eddy Simulations of Merging Flow Characteristics in Dual Rushton Turbine Stirred TanksZHIPENG LI; MENGTING HU; YUYUN BAO et al.Industrial & engineering chemistry research. 2012, Vol 51, Num 5, pp 2438-2450, issn 0888-5885, 13 p.Article

Gas-liquid mass transfer: Influence of sparger locationSARDEING, R; AUBIN, J; POUX, M et al.Chemical engineering research & design. 2004, Vol 82, Num 9, pp 1161-1168, issn 0263-8762, 8 p.Article

Catchment area of the cavities behind a Rushton turbine in gassed-stirred-tank reactorsEZIMORA, G. C; LÜBBERT, A.Chemical engineering science. 1997, Vol 52, Num 10, pp 1673-1677, issn 0009-2509Article

Effect of tank to impeller diameter ration on flooding transition for disc turbinesTATTERSON, G. B; MORRISON, G. L.AIChE journal. 1987, Vol 33, Num 10, pp 1751-1753, issn 0001-1541Article

Caractéristiques du fractionnement des gouttes au cours de l'agitation des émulsions diluées par des agitateurs à turbineROZENTSVAJG, A. K.Žurnal prikladnoj himii. 1985, Vol 58, Num 6, pp 1290-1298, issn 0044-4618Article

Gassed power dynamics of disc turbine impellerGREAVES, M; KOBBACY, K. A. H; MILLINGTON, G. C et al.Chemical engineering science. 1983, Vol 38, Num 11, pp 1909-1916, issn 0009-2509Article