关注
Suzanne Kresta
Suzanne Kresta
Professor of Chemical Engineering, University of Saskatchewan
在 usask.ca 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Handbook of industrial mixing
EL Paul, VA Atiemo-Obeng, SM Kresta
Wiley-Blackwell, 2004
21712004
Correlation of mean drop size and minimum drop size with the turbulence energy dissipation and the flow in an agitated tank
G Zhou, SM Kresta
Chemical Engineering Science 53 (11), 2063-2079, 1998
2931998
The flow field produced by a pitched blade turbine: characterization of the turbulence and estimation of the dissipation rate
SM Kresta, PE Wood
Chemical engineering science 48 (10), 1761-1774, 1993
2831993
Impact of tank geometry on the maximum turbulence energy dissipation rate for impellers
G Zhou, SM Kresta
AIChE journal 42 (9), 2476-2490, 1996
2451996
Prediction of the three‐dimensional turbulent flow in stirred tanks
SM Kresta, PE Wood
AIChE journal 37 (3), 448-460, 1991
2411991
The effect of impeller and tank geometry on power number for a pitched blade turbine
D Chapple, SM Kresta, A Wall, A Afacan
Chemical Engineering Research and Design 80 (4), 364-372, 2002
2222002
The mean flow field produced by a 45 pitched blade turbine: changes in the circulation pattern due to off bottom clearance
SM Kresta, PE Wood
The Canadian Journal of Chemical Engineering 71 (1), 42-53, 1993
2091993
A new definition of mixing and segregation: Three dimensions of a key process variable
A Kukukova, J Aubin, SM Kresta
Chemical engineering research and design 87 (4), 633-647, 2009
1542009
Distribution of energy between convective and turbulent flow for three frequently used impellers
G Zhou, SM Kresta
Chemical engineering research & design 74 (3), 379-389, 1996
1511996
Turbulence in stirred tanks: anisotropic, approximate, and applied
S Kresta
The Canadian Journal of Chemical Engineering 76 (3), 563-576, 1998
1321998
Advances in industrial mixing: a companion to the handbook of industrial mixing
SM Kresta, AW Etchells III, DS Dickey, VA Atiemo-Obeng
John Wiley & Sons, 2015
1292015
Evolution of drop size distribution in liquid–liquid dispersions for various impellers
G Zhou, SM Kresta
Chemical Engineering Science 53 (11), 2099-2113, 1998
1261998
Hands‐on demonstrations: An alternative to full scale lab experiments
SM Kresta
Journal of Engineering Education 87 (1), 7-9, 1998
1171998
Active volume of mean circulation for stirred tanks agitated with axial impellers
KJ Bittorf, SM Kresta
Chemical engineering science 55 (7), 1325-1335, 2000
1102000
Low frequency macroinstabilities in a stirred tank: scale-up and prediction based on large eddy simulations
V Roussinova, SM Kresta, R Weetman
Chemical Engineering Science 58 (11), 2297-2311, 2003
1082003
Characteristics of a confined impinging jet reactor: energy dissipation, homogeneous and heterogeneous reaction products, and effect of unequal flow
SW Siddiqui, Y Zhao, A Kukukova, SM Kresta
Industrial & Engineering Chemistry Research 48 (17), 7945-7958, 2009
1062009
Prediction of cloud height for solid suspensions in stirred tanks
KJ Bittorf, SM Kresta
Chemical Engineering Research and Design 81 (5), 568-577, 2003
1022003
Effect of geometry on the mechanisms for off-bottom solids suspension in a stirred tank
I Ayranci, MB Machado, AM Madej, JJ Derksen, DS Nobes, SM Kresta
Chemical Engineering Science 79, 163-176, 2012
942012
Critical analysis of Zwietering correlation for solids suspension in stirred tanks
I Ayranci, SM Kresta
Chemical Engineering Research and Design 92 (3), 413-422, 2014
872014
Importance of using the correct impeller boundary conditions for CFD simulations of stirred tanks
MD Fokema, SM Kresta, PE Wood
The Canadian Journal of Chemical Engineering 72 (2), 177-183, 1994
861994
系统目前无法执行此操作,请稍后再试。
文章 1–20