| 337 - 337 |
Engineering research on mixing : State of the art introductory remarks
Tanguy PA, Nienow AW |
| 339 - 364 |
Design of stirred vessels with gas entrained from free liquid surface
Patwardhan AW, Joshi JB |
| 365 - 369 |
Interstage backmixing of an aerated multistage, mechanically-agitated, compartmented column
Takriff MS, Penney WR, Fasano JB |
| 370 - 378 |
Axial mixing in a 15 cm diameter reciprocating plate bubble column
Baird MHI, Rao NVR |
| 379 - 389 |
Power consumption and mass transfer in agitated gas-liquid columns : A comparative study
Gagnon H, Lounes M, Thibault J |
| 390 - 397 |
Bubble size and mass transfer coefficients in dual-impeller agitated reactors
Bouaifi MI, Roustan M |
| 398 - 404 |
Scale-up of mixing in gassed multi-turbine agitated vessels
Vasconcelos JMT, Alves SS, Nienow AW, Bujalski W |
| 405 - 412 |
Non-uniformity of gas dispersion in turbine-generated viscoelastic circulation flow
Vlaev SD, Martinov M |
| 413 - 419 |
Determination of correlations to predict the minimum agitation speed for complete solid suspension in agitated vessels
Armenante PM, Nagamine EU, Susanto J |
| 420 - 427 |
Unsuspended mass of solid particles in stirred tanks
Brucato A, Brucato V |
| 428 - 432 |
Agitation power for solid-liquid suspensions containing large particles
Bubbico R, Di Cave S, Mazzarotta B |
| 433 - 440 |
Solids suspension with up-pumping pitched-blade and high-efficiency impellers
Myers KJ, Bakker A |
| 441 - 445 |
Solid-liquid mass transfer in a shaking vessel for a bioreactor with "current pole"
Kato Y, Hiraoka S, Tada Y, Nomura T |
| 446 - 455 |
Solid-liquid mass transfer coefficients in gas-solid-liquid agitated vessels
Grisafi F, Brucato A, Rizzuti L |
| 456 - 470 |
Drop break-up in intermittent turbulence : Maximum stable and transient sizes of drops
Baldyga J, Podgorska W |
| 471 - 478 |
Newtonian power curve and drop size distributions for vibromixers
Lo MYA, Gierczycki AT, Titchener-Hooker NJ, Shamlou PA |
| 479 - 485 |
Evolution of the microstructure and rheology of O/W emulsions during the emulsification process
Sanchez MC, Berjano M, Guerrero A, Brito E, Gallegos C |
| 486 - 494 |
Phase inversion studies in liquid-liquid dispersions
Norato MA, Tsouris C, Tavlarides LL |
| 495 - 505 |
Calculation of the particle size distribution in suspension polymerization using a compartment-mixing model
Vivaldo-Lima E, Wood PE, Hamielec AE, Penlidis A |
| 506 - 510 |
In situ rheological monitoring in semi-batch emulsification process for cosmetic lotion production
Choplin L, Torandell S, Servoin J |
| 511 - 515 |
Demixing effects in laminar shearing flows : A practically useful approach
Agarwal S, Doraiswamy D, Gupta RK |
| 516 - 521 |
Quantification of laminar mixing in the Kenics static mixer : An experimental study
Jaffer SA, Wood PE |
| 522 - 526 |
Determination of the mixing performance of Sulzer SMV static mixers by laser induced fluorescence
Karoui A, Hakenholz F, Le Sauze N, Costes J, Bertrand J |
| 527 - 535 |
Numerical investigation of the performance of several static mixers
Rauline D, Tanguy PA, Le Blevec JM, Bousquet J |
| 536 - 545 |
Averaged and time-resolved, full-field (three-dimensional), measurements of unsteady opposed jets
Zhao Y, Brodkey RS |
| 546 - 555 |
Experimental and numerical characterization of viscous flow and mixing in an impinging jet contactor
Unger DR, Muzzio FJ, Brodkey RS |
| 556 - 562 |
Effect of blade pitch on the structure of the trailing vortex around Rushton turbine impellers
Lu WM, Yang BS |
| 563 - 576 |
Turbulence in stirred tanks : Anisotropic, approximate, and applied
Kresta S |
| 577 - 588 |
A study of an up- and a down-pumping wide blade hydrofoil impeller : Part I. LDA measurements
Mishra VP, Dyster KN, Jaworski Z, Nienow AW, Mckemmie J |
| 589 - 599 |
Pumping, spraying, and mixing of fluids by electric fields
Tsouris C, Shin WT, Yiacoumi S |
| 600 - 610 |
Characterization of stirred vessel hydrodynamics by three dimensional trajectography
Wittmer S, Falk L, Pitiot P, Vivier H |
| 611 - 625 |
Validation of CFD simulations of a stirred tank using particle image velocimetry data
Sheng J, Meng H, Fox RO |
| 626 - 630 |
Measurement of the local intensities of segregation with the tomographical dual wavelength photometry
Buchmann M, Mewes D |
| 631 - 640 |
Direct prediction of the flows induced by a propeller in an agitated vessel using an unstructured mesh
Naude I, Xuereb C, Bertrand J |
| 641 - 649 |
Non-isothermal micromixing in turbulent liquids : Theory and experiment
Baldyga J, Bourne JR, Walker B |
| 650 - 656 |
Effect of micro-mixing on the yield of intermediates in triplet consecutive/competitive reactions
El-Hamouz AM, Mann R |
| 657 - 669 |
Experimental measurements and simulation of mixing and chemical reaction in a stirred tank
Zipp RP, Patterson GK |
| 670 - 679 |
The use of mixing-sensitive chemical reactions to study mixing in dispersed fibre systems : Adsorption of reactants and product dyes on the dispersed phase
Mmbaga JP, Bennington CPJ |
| 680 - 685 |
Gas chromatography mass spectrometric determination of unsymdimethylhydrazine in soil and water by derivatization with aromatic aldehydes
Cathum S, Atamaniouk V, Ananieva L, Ladanowski C, Whittaker H |
| 686 - 687 |
Comments of the article "The mean flow field generated by a pitched blade turbine : Changes in the circulation pattern due to impeller geometry" - Reply
Mao DM, Feng LF |
| 686 - 686 |
Comments of the article "The mean flow field generated by a pitched blade turbine : Changes in the circulation pattern due to impeller geometry"
Fort I |
