Process intensification: transforming chemical engineering AI Stankiewicz, JA Moulijn Chemical engineering progress 96 (1), 22-34, 2000 | 1478 | 2000 |
Structure, energy, synergy, time The fundamentals of process intensification T Van Gerven, A Stankiewicz Industrial & engineering chemistry research 48 (5), 2465-2474, 2009 | 670 | 2009 |
A review of intensification of photocatalytic processes T Van Gerven, G Mul, J Moulijn, A Stankiewicz Chemical Engineering and Processing: Process Intensification 46 (9), 781-789, 2007 | 582 | 2007 |
Membrane engineering in process intensification—An overview E Drioli, AI Stankiewicz, F Macedonio Journal of Membrane Science 380 (1-2), 1-8, 2011 | 436 | 2011 |
Reactive separations for process intensification: an industrial perspective A Stankiewicz Chemical Engineering and Processing: Process Intensification 42 (3), 137-144, 2003 | 384 | 2003 |
Process intensification A Stankiewicz, JA Moulijn Industrial & Engineering Chemistry Research 41 (8), 1920-1924, 2002 | 306 | 2002 |
Re-engineering the chemical processing plant: process intensification A Stankiewicz, JA Moulijn CRC Press, 2003 | 289 | 2003 |
Crystal nucleation kinetics from induction times and metastable zone widths SA Kulkarni, SS Kadam, H Meekes, AI Stankiewicz, JH ter Horst Crystal growth & design 13 (6), 2435-2440, 2013 | 230 | 2013 |
Process intensification and process systems engineering: a friendly symbiosis JA Moulijn, A Stankiewicz, J Grievink, A Górak Computers & Chemical Engineering 32 (1-2), 3-11, 2008 | 227 | 2008 |
Hydrodynamic evaluations in high rate algae pond (HRAP) design H Hadiyanto, S Elmore, T Van Gerven, A Stankiewicz Chemical Engineering Journal 217, 231-239, 2013 | 187 | 2013 |
A new view on the metastable zone width during cooling crystallization SS Kadam, SA Kulkarni, RC Ribera, AI Stankiewicz, JH ter Horst, ... Chemical engineering science 72, 10-19, 2012 | 174 | 2012 |
Opportunities and challenges for process control in process intensification NM Nikačević, AEM Huesman, PMJ Van den Hof, AI Stankiewicz Chemical Engineering and Processing: Process Intensification 52, 1-15, 2012 | 156 | 2012 |
On the use of the Couette Cell technology for large scale production of textured soy-based meat replacers GA Krintiras, JG Diaz, AJ Van Der Goot, AI Stankiewicz, GD Stefanidis Journal of Food Engineering 169, 205-213, 2016 | 150 | 2016 |
Microwaves in heterogeneous gas‐phase catalysis: experimental and numerical approaches T Durka, T Van Gerven, A Stankiewicz Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2009 | 142 | 2009 |
A helicopter view of microwave application to chemical processes: reactions, separations, and equipment concepts GD Stefanidis, AN Muñoz, GSJ Sturm, A Stankiewicz Reviews in Chemical Engineering 30 (3), 233-259, 2014 | 141 | 2014 |
Influence of operating pressure on the gas hold-up in bubble columns for high viscous media MI Urseanu, RPM Guit, A Stankiewicz, G Van Kranenburg, J Lommen Chemical Engineering Science 58 (3-6), 697-704, 2003 | 132 | 2003 |
On the effect of resonant microwave fields on temperature distribution in time and space GSJ Sturm, MD Verweij, T van Gerven, AI Stankiewicz, GD Stefanidis International Journal of Heat and Mass Transfer 55 (13-14), 3800-3811, 2012 | 115 | 2012 |
Energy matters: Alternative sources and forms of energy for intensification of chemical and biochemical processes A Stankiewicz Chemical Engineering Research and Design 84 (7), 511-521, 2006 | 115 | 2006 |
Process intensification in in-line monolithic reactor A Stankiewicz Chemical Engineering Science 56 (2), 359-364, 2001 | 111 | 2001 |
Intensified reaction and separation systems A Gorak, A Stankiewicz Annual review of chemical and biomolecular engineering 2 (1), 431-451, 2011 | 104 | 2011 |