951 - 965 |
Design of agitation fermenters - Consideration of the non-Newtonian properties of fermentation solutions Henzler HJ |
967 - 982 |
Process intensification in compound- and reactor technology Himmelsbach W, Keller W, Gezork K, Krebs R |
983 - 999 |
Current developments in the CFD for agitated systems Paschedag AR, Kassera V, Sperling R |
1001 - 1014 |
Calculation and assessment of streaming-based complex-laminary compound processes Bothe D, Warnecke HJ |
1015 - 1023 |
Solid compounds Mueller M |
1024 - 1028 |
Exposure of particles and fluid elements to agitation Wollny S, Sperling R, Kraume M, Ritter J |
1029 - 1034 |
Coaxial agitator for the agitation of highly viscous and non-Newtonian media Heiser M, Ritter J, Sperling R, Kraume M |
1036 - 1044 |
Characterisation of the mixed behaviour of a planet agitator with free selectable speeds of the mixing elements Knoch A, Schilling F, Wicke R |
1045 - 1051 |
Fluid dynamics of a liquid film on a vertical filament Grunig J, Kraume M, Shilkin A |
1052 - 1058 |
Dynamic membrane gassing in the bioreactor for the intensification of the oxygen supply to sensitive cell lines Frahm B, Kirchner S, Kauling J, Brod H, Und UL, Bodeker B |
1059 - 1065 |
Analysis of macro- and micromixing with the help of laser-diagnostic processes Faes M, Glasmacher B |
1067 - 1075 |
Examination of the mixing process through the use of micro-LIF and micro-PIV Hoffmann M, Schluter M, Rabiger N |
1076 - 1079 |
Gas-induced tank mixing for acrylic acid and its derivatives Zehner P, Hammon U, Martin FG, Blechschmitt M, Muller-Engel K |
1081 - 1088 |
Better process command of batch agitator boilers through trajectory regulation Vollbrecht B, Himmler K, Olschewski F, Pfeiffer BM |
1089 - 1095 |
Numeric calculation of proper frequencies on immersed vessel fixtures in agitator reactors Stadtaus M, Kastner B, Weiss HJ |