Characterization and Simulation

Preliminary Program subject to change

T5011 Characterization and Simulation - Part 1

Overview

Characterization methods of microstructured devices e.g. for mixing quality, heat and mass transfer capabilities, properties which influence residence time or particle size distribution often differ from the well-established methods of the macroscale world due to scale effects. Papers about new developed or succesfully applied characterization methods are as wellcome in this session.

Primary Sponsor

Topical 5: IMRET-10: 10^th International Conference on Microreaction Technology (T5)

Chair

Dionisios G. Vlachos
Professor
Department of Chemical Engineering and Center for Catalytic Science and Technology
University of Delaware
150 Academy Street
Newark, DE 19716
Phone Number: 302-831-2830
Fax Number: 302-831-1048
Email: vlachos@udel.edu

CoChair

Catherine Xuereb
Director of research
Reaction, mixing & separation
Laboratoire de Génie Chimique
BP 1301
5, rue Paulin Talabot
Toulouse cedex 1, 31106
France
Phone Number: +33-534615245
Email: Catherine.Xuereb@ensiacet.fr

Residence Time Distribution Studies in Microchannels with Staggered Herringbone Structures
Alberto Cantu-Perez and Asterios Gavriilidis, Dept of Chemical Engineering, University College London, London, United Kingdom

Evaluation of Numerical Methods for Describing Mass Transfer in Microstructured Devices Using Experimentally Determined Residence Time Distributions
Sebastian Lohse¹, Jens F. Acker², Zhu Fan¹, E. Ekkehard Barth¹, Joachim Franzke³, Stefan Turek² and David W. Agar¹, (1)Biochemical and Chemical Engineering, Laboratory of Technical Chemistry B, Technische Universität Dortmund, D-44227 Dortmund, Germany, (2)Institute of Applied Mathematics, University of Dortmund, Dortmund, Germany, (3)Miniaturisation, ISAS - Institute for Analytical Sciences, D-44139 Dortmund

Optical Characterization of Viscosity-Dependent Residence Time Distribution in the Static Micromixer Statmix6
Michael Koehler¹, Beate Schleiff², Steffen Schneider², Dusan Boskovich³ and Gregor Alexander Gross⁴, (1)Physics Dept, Technical University, Ilmenau, Germany, (2)Techn. Univ. Ilmenau, Ilmenau, Germany, (3)Institut for Chemical Technology, Fraunhofer Gesellschaft, (4)Physical Chemistry and Micro Reaction Technology Department, Techn. Univ. Ilmenau, Ilmenau, Germany

Characterization of Flow Regimes and Transport Phenomena in Complex Microchannels
Norbert Kockmann, Process Optimization, Lonza, Visp, Switzerland

Intermediate Reynolds Number Reactive Boundary Layers in Catalytic Micro-Combustion Flows
Suzanne A. Smyth and Dimitrios C Kyritsis, Department of Mechanical Science and Engineering, University of Illinois at Urbana-Champaign, Urbana, IL

Mass Transfer Characterization Inside Reactive Droplets Flowing Throw Microchannels
Flavie Sarrazin, LOF Laboratoire du Futur - Pessac - France, Pessac, France

Topical 5: IMRET-10: 10^th International Conference on Microreaction Technology