| 1 |
CFD simulation of impeller shape effect on quality of mixing in two-phase gas-liquid agitated vessel
Heidari A
Chinese Journal of Chemical Engineering, 28(11), 2733, 2020 |
| 2 |
Influence of Different Baffle Variations on the Effectiveness of Multi-Stage Agitated Vessels
Heyter A, Wollny S
Chemie Ingenieur Technik, 89(4), 416, 2017 |
| 3 |
Bioreactors for lignocellulose conversion into fermentable sugars for production of high added value products
Liguori R, Ventorino V, Pepe O, Faraco V
Applied Microbiology and Biotechnology, 100(2), 597, 2016 |
| 4 |
Axial thrust of axial flow impellers
Fort I, Seichter P, Pesl L
Chemical Engineering Research & Design, 91(5), 789, 2013 |
| 5 |
On the Manifestation and Nature of Macroinstabilities in Stirred Vessels
Doulgerakis Z, Yianneskis M, Ducci A
AIChE Journal, 57(11), 2941, 2011 |
| 6 |
On hydraulic efficiency of pitched blade impellers
Fort I
Chemical Engineering Research & Design, 89(6A), 611, 2011 |
| 7 |
The relation between the rate of erosion wear of a pitched blade impeller and its process characteristics
Fort I, Jirout T
Chemical Engineering Research & Design, 89(10A), 1929, 2011 |
| 8 |
Effect of the attack angle on the roll and trailing vortex structures in an agitated vessel with a paddle impeller
Suzukawa K, Mochizuki S, Osaka H
Chemical Engineering Science, 61(9), 2791, 2006 |
| 9 |
Power consumption and gas-liquid mass transfer volumetric coefficient in an agitated vessel with pitched wire-gauze blade impeller under aeration
Hiraoka S, Tada Y, Kato Y, Ukai Y, Sasaki J, Yamaguchi T, Matsuura A
Journal of Chemical Engineering of Japan, 36(3), 333, 2003 |
| 10 |
The effect of impeller and tank geometry on power number for a pitched blade turbine
Chapple D, Kresta SM, Wall A, Afacan A
Chemical Engineering Research & Design, 80(4), 364, 2002 |
