Eugeny Kenig

Career

In 1974 he began studying applied mathematics at the Gubkin University of Petroleum and Gas in Moscow. Five years later he graduated with distinction as a graduate engineer-mathematician. He then worked from 1979 to 1994 as a research assistant at the Russian Academy of Sciences at the Kurnakow Institute for General and Inorganic Chemistry in Moscow. There he received his doctorate in 1985 on heat and mass transfer in rectification and absorption of two- and multi-component mixtures.

After 1994 Kenig Alexander von Humboldt received a fellowship and worked as a visiting scientist at the chair for thermal process engineering at the Technical University of Dortmund . From 1995-1998 he worked there as a research assistant for three years. In 1998 Eugeny Kenig worked as a development engineer at BASF AG in Ludwigshafen. He then took up a position as a research assistant at the University of Essen until 2000 . Eugeny Kenig completed his habilitation in December 1999 at the Department of Chemical Engineering at the University of Dortmund (Habilitation thesis: “Modeling of Multicomponent Mass Transfer in Separation of Fluid Mixtures”) and was qualified to teach the subject of “Thermal Process Engineering”.

From 2000 to 2006 he worked as a private lecturer at the chair for thermal process engineering at the Technical University of Dortmund, and since 2006 as an adjunct professor. In 2008 he accepted a position at the University of Paderborn as head of the chair for fluid process engineering, where he works to this day. Before that, he turned down an offer from the BTU Cottbus in 2004 and an offer from the University of Karlsruhe (TH) in 2008 . Since 2010 he has also been an adjunct professor at Gubkin University for Petroleum and Gas.

Eugeny Kenig is married and has one child.

Research subject

Honors and functions

From 2004 to 2007, Eugeny Kenig was the coordinator of the EU project “Integrating separation and reaction technologies” (INSERT, NMP2-CT-2003-505862) - 14 partners, 8 countries. He is a member of the ProcessNet specialist group “CFD” (2008), the ProcessNet specialist group “Fluid Process Engineering” (2011) and the ProcessNet specialist group “Heat and Mass Transfer” (2015) and was a member of the “European Research Network for Sustainable Technologies” ”(ERNST) (1999-2001).

From 2011 to 2015 he was a member of the Senate of the University of Paderborn. He is a reviewer for more than 25 international journals and is a member of the editorial board of the journals "Chemical Product and Process Modeling" (De Gruyter), "Chemical Papers" (Springer) and "Chemical Engineering Transactions" (AIDIC).

In 1993 he was awarded the Soros Foundation Prize , USA and in 1994 a Humboldt Scholarship at the University of Dortmund.

In 2005 he received the Alkyl Amines Padma Bhushan Professor BD Tilak Chemcon Distinguished Speaker Award from the Indian Institute of Chemical Engineers (India) and in 2006 a Golden Jubilee Visiting Fellowship from the University of Mumbai , Institute of Chemical Technology (India).

Monographs and book chapters

• Kenig, EY and Blagov, S. Modeling of Distillation Processes, In: Distillation: Fundamentals and Principles (Eds. A. Górak & E. Sorensen), London ao: Elsevier, 2014
• Kenig, EY A Framework for the Modeling of Reactive Separations, In: Process Systems Engineering: Vol. 7 Dynamic Process Modeling (Eds.JR Banga, MC Georgiadis & EN Pistikopoulos), Weinheim: Wiley-VCH, 2010
• Kenig, EY and Górak, A. Modeling of Reactive Distillation, In: Modeling of Process Intensification (Ed. F. Keil), Weinheim: Wiley-VCH, 2007
• Richter, J., Górak, A. and Kenig, EY Catalytic Distillation , In: Integrated Reaction and Separation Operations. Modeling and experimental Validation (Eds. H. Schmidt-Traub & A. Górak), Berlin: Springer, 2006
• Kenig, EY and Górak, A. Reactive Absorption , In: Integrated Chemical Processes (Eds. K. Sundmacher, A. Kienle & A. Seidel-Morgenstern), Weinheim: Wiley-VCH, 2005

Review article

• Kenig, EY, Su, Y., Lautenschleger, A., Chasanis, P. and Grünewald, M .: Micro-separation of fluid systems: A state-of-the-art review , In: Separation and Purification Technology 120: 245 -264, 2013
• Yildirim, Ö., Kiss, AA, Hüser, N., Leßmann, K. and Kenig, EY: Reactive absorption in chemical process industry: A review on current activities , In: Chemical Engineering Journal 213: 371-391, 2012
• Yildirim, Ö., Kiss, AA and Kenig, EY: Dividing-wall columns in chemical process industry: A review on current activities , In: Separation & Purification Technology 80: 403-417, 2011
• Vaidya, PD and Kenig, EY: Termolecular kinetic model for CO2 - alkanolamine reactions: An overview , In: Chemical Engineering & Technology 33: 1577–1581, 2010
• Chasanis, P., Kern, J., Grünewald, M. and Kenig, EY: Micro-separation technology: development status and perspectives , In: Chemie Ingenieur Technik 82: 215-228, 2010
• Vaidya, PD and Kenig, EY: Kinetics of carbonyl sulfide reaction with alkanolamines: A review , In: Chemical Engineering Journal 148: 207-211, 2009
• Kenig, EY: Advanced modeling of reactive separation units with structured packings , In: Chemical Product and Process Modeling 2: 1-30, 2007
• Vaidya, PD and Kenig, EY: CO2 - alkanolamine reaction kinetics: A review on recent studies , In: Chemical Engineering & Technology 30: 1467–1474, 2007
• Vaidya, PD and Kenig, EY: Gas-liquid reaction kinetics: A review of determination methods , In: Chemical Engineering Communications 194: 1543-1565, 2007

Publications and patents

Approx. Eugeny Kenig has published 400 publications and patents.

Footnotes

1. ↑ Fluid Process Engineering Paderborn - Research Topics. Retrieved May 17, 2017 . 
2. ^ Andrzej Gorak, Eva Sorensen: Distillation: Fundamentals and Principles . Academic Press, 2014, ISBN 978-0-12-386548-9 ( google.de [accessed May 4, 2017]). 
3. ↑ Efstratios N. Pistikopoulos, Amparo Galindo, Vivek Dua: Dynamic Process Modeling . John Wiley & Sons, 2013, ISBN 978-3-527-63134-6 ( google.de [accessed May 4, 2017]). 
4. ^ Frerich Keil: Modeling of Process Intensification . John Wiley & Sons, 2007, ISBN 978-3-527-31143-9 ( google.de [accessed May 4, 2017]). 
5. ^ Joachim Richter, Prof Dr Ing Andrzej Górak, Eugeny Y. Kenig: Catalytic distillation . In: Integrated Reaction and Separation Operations . Springer Berlin Heidelberg, 2006, ISBN 978-3-540-30148-6 , pp. 95-147 , doi : 10.1007 / 3-540-30304-9_3 . 
6. ^ Kai Sundmacher, Achim Kienle, Andreas Seidel-Morgenstern: Integrated Chemical Processes: Synthesis, Operation, Analysis and Control . John Wiley & Sons, 2006, ISBN 978-3-527-60555-2 ( google.de [accessed May 4, 2017]). 
7. ↑ Eugeny Y. Kenig, Yuanhai Su, Anna Lautenschleger, Paris Chasanis, Marcus Grünewald: Micro-separation of fluid systems: A state-of-the-art review . In: Separation and Purification Technology . tape 120 , December 13, 2013, p. 245–264 , doi : 10.1016 / j.seppur.2013.09.028 ( sciencedirect.com [accessed May 4, 2017]). 
8. ↑ Ömer Yildirim, Anton A. Kiss, Nicole Hüser, Katharina Leßmann, Eugeny Y. Kenig: Reactive absorption in chemical process industry: A review on current activities . In: Chemical Engineering Journal . tape 213 , December 1, 2012, p. 371–391 , doi : 10.1016 / j.cej.2012.09.121 ( sciencedirect.com [accessed May 4, 2017]). 
9. ↑ Ömer Yildirim, Anton A. Kiss, Eugeny Y. Kenig: Dividing wall columns in chemical process industry: A review on current activities . In: Separation and Purification Technology . tape 80 , no. 3 , August 18, 2011, p. 403-417 , doi : 10.1016 / j.seppur.2011.05.009 ( sciencedirect.com [accessed May 4, 2017]). 
10. ↑ PD Vaidya, EY Kenig: Termolecular Kinetic Model for CO2-Alkanolamine Reactions: An Overview . In: Chemical Engineering & Technology . tape 33 , no. 10 , October 1, 2010, ISSN  1521-4125 , p. 1577–1581 , doi : 10.1002 / ceat.201000050 . 
11. ↑ P. Chasanis, J. Kern, M. Grünewald, EY Kenig: Micro separation technology: state of development and perspectives . In: Chemical Engineer Technology . tape 82 , no. 3 , March 1, 2010, ISSN  1522-2640 , p. 215-228 , doi : 10.1002 / cite.200900154 . 
12. ↑ Prakash D. Vaidya, Eugeny Y. Kenig: Kinetics of carbonyl sulfide reaction with alkanolamines: A review . In: Chemical Engineering Journal . tape 148 , no. 2–3 , May 15, 2009, pp. 207–211 , doi : 10.1016 / j.cej.2008.08.009 ( sciencedirect.com [accessed May 4, 2017]). 
13. ^ E. Y Kenig: Advanced Modeling of Reactive Separation Units with Structured Packings . In: Chemical Product and Process Modeling . tape 2 , no. 1 , ISSN  1934-2659 , doi : 10.2202 / 1934-2659.1042 ( degruyter.com [accessed on May 4, 2017]). 
14. ↑ PD Vaidya, EY Kenig: CO2-Alkanolamine Reaction Kinetics: A Review of Recent Studies . In: Chemical Engineering & Technology . tape 30 , no. 11 , November 1, 2007, ISSN  1521-4125 , p. 1467-1474 , doi : 10.1002 / ceat.200700268 . 
15. ↑ Prakash D. Vaidya, Eugeny Y. Kenig: Gas-Liquid Reaction Kinetics: A Review of Determination Methods . In: Chemical Engineering Communications . tape 194 , no. 12 , August 13, 2007, ISSN  0098-6445 , p. 1543-1565 , doi : 10.1080 / 00986440701518314 . 
16. ^ Faculty of Mechanical Engineering - Person (University of Paderborn). (No longer available online.) Archived from the original on August 18, 2017 ; Retrieved April 26, 2017 . Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. @1@ 2Template: Webachiv / IABot / mb.uni-paderborn.de