CO2‐Alkanolamine Reaction Kinetics: A Review of Recent Studies PD Vaidya, EY Kenig Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2007 | 819 | 2007 |
Dividing wall columns in chemical process industry: A review on current activities Ö Yildirim, AA Kiss, EY Kenig Separation and Purification Technology 80 (3), 403-417, 2011 | 452 | 2011 |
Modelling of reactive separation processes: reactive absorption and reactive distillation C Noeres, EY Kenig, A Górak Chemical Engineering and Processing: Process Intensification 42 (3), 157-178, 2003 | 287 | 2003 |
CFD-based analysis of the wall effect on the pressure drop in packed beds with moderate tube/particle diameter ratios in the laminar flow regime T Atmakidis, EY Kenig Chemical Engineering Journal 155 (1-2), 404-410, 2009 | 201 | 2009 |
On the modelling and simulation of sour gas absorption by aqueous amine solutions L Kucka, I Müller, EY Kenig, A Górak Chemical engineering science 58 (16), 3571-3578, 2003 | 191 | 2003 |
Reactive absorption in chemical process industry: A review on current activities Ö Yildirim, AA Kiss, N Hüser, K Leßmann, EY Kenig Chemical engineering journal 213, 371-391, 2012 | 166 | 2012 |
Reactive distillation in a dividing wall column: rate-based modeling and simulation I Mueller, EY Kenig Industrial & engineering chemistry research 46 (11), 3709-3719, 2007 | 165 | 2007 |
Investigation of ethyl acetate reactive distillation process EY Kenig, H Bäder, A Górak, B Beßling, T Adrian, H Schoenmakers Chemical Engineering Science 56 (21-22), 6185-6193, 2001 | 126 | 2001 |
Reactive absorption: Optimal process design via optimal modelling EY Kenig, R Schneider, A Górak Chemical engineering science 56 (2), 343-350, 2001 | 125 | 2001 |
Kinetics of the gas− liquid reaction between carbon dioxide and hydroxide ions L Kucka, EY Kenig, A Gorak Industrial & engineering chemistry research 41 (24), 5952-5957, 2002 | 124 | 2002 |
Determination of gas–liquid reaction kinetics with a stirred cell reactor L Kucka, J Richter, EY Kenig, A Górak Separation and purification technology 31 (2), 163-175, 2003 | 118 | 2003 |
Micro-separation of fluid systems: A state-of-the-art review EY Kenig, Y Su, A Lautenschleger, P Chasanis, M Grünewald Separation and Purification technology 120, 245-264, 2013 | 109 | 2013 |
Kinetics of carbon dioxide removal by aqueous alkaline amino acid salts PD Vaidya, P Konduru, M Vaidyanathan, EY Kenig Industrial & engineering chemistry research 49 (21), 11067-11072, 2010 | 104 | 2010 |
Absorption of CO2 into aqueous blends of alkanolamines prepared from renewable resources PD Vaidya, EY Kenig Chemical Engineering Science 62 (24), 7344-7350, 2007 | 103 | 2007 |
Rate-based modelling and simulation of reactive separations in gas/vapour–liquid systems M Klöker, EY Kenig, A Hoffmann, P Kreis, A Górak Chemical Engineering and Processing: Process Intensification 44 (6), 617-629, 2005 | 103 | 2005 |
Investigation of different column configurations for the ethyl acetate synthesis via reactive distillation M Klöker, EY Kenig, A Górak, AP Markusse, G Kwant, P Moritz Chemical Engineering and Processing: Process Intensification 43 (6), 791-801, 2004 | 103 | 2004 |
Acceleration of CO2 Reaction with N,N-Diethylethanolamine in Aqueous Solutions by Piperazine PD Vaidya, EY Kenig Industrial & engineering chemistry research 47 (1), 34-38, 2008 | 88 | 2008 |
Secondary amines for CO2 capture: A kinetic investigation using N-ethylmonoethanolamine PN Sutar, A Jha, PD Vaidya, EY Kenig Chemical engineering journal 207, 718-724, 2012 | 84 | 2012 |
Determination of the geometric design parameters of pillow-plate heat exchangers M Piper, A Olenberg, JM Tran, EY Kenig Applied Thermal Engineering 91, 1168-1175, 2015 | 81 | 2015 |
Termolecular Kinetic Model for CO2‐Alkanolamine Reactions: An Overview PD Vaidya, EY Kenig Chemical engineering & technology 33 (10), 1577-1581, 2010 | 79 | 2010 |