|
Alumni |
|
Research Fellows |
| Dr E. Apol |
Interparticle forces by Molecular Dynamics simulations (IFMD) |
NWO/STW, Shell, Akzo, DSM, Unilever, University of Twente |
| Dr J. Bosma |
Dry particle classification in fluidized beds with internals |
EET |
| Ir H.J. Finkers |
Segregation in powder handling apparatus/Transport phenomena in protein-sugar foams |
Lafarge Gips/Cadbury |
| Dr A. Kosinska |
Numerical Simulation of Hydrate Particles |
HYPERION project, NFR, Norsk Hydro |
| Dr R. Noordman |
Transport phenomena in protein-sugar foams |
Cadbury |
| Ir R. Postma |
Improvement of cyclone separators for the FCC-process |
Shell Global Solutions |
| Dr M.B. Ray |
PoC, a new way of improving the separation efficiency of industrial scale cyclones |
Bureau M+I, NOVEM |
Ph.D. Students |
| Dr. H. Tikkanen |
Cost Effective and Environmentally Friendly Methods for the Fabrication of Solid Oxide Fuel Cell Components |
Prototech AS, NFR |
| Dr. G. Pisarev |
Experimental and numerical study of the end of the vortex phenomenon |
Utrecht University, NFR |
| Dr. B.V. Balakin |
Experimental and theoretical study of the flow, aggregation and deposition of gas hydrate particles |
NFR, SINTEF, StatoilHydro, Chevron |
| Dr. C. Ilea |
Numerical simulations of dust lifting |
NFR |
| Dr. T.X. Ho |
Modeling of transport, chemical and electrochemical processes in solid oxide fuel cells |
NFR, CMR Prototech |
| Dr. C.S. Ilea |
New materials for solid oxide fuel cells based on nanoparticles |
NFR, Prototech AS |
| Dr. T. Austrheim |
Experimental Characterization of High-Pressure Natural Gas Scrubbers |
HiPGaS consortium |
| S. Silalahi M.Sc. |
Simulation and testing of SOFC materials |
NFR, Prototech |
| Dr E.J.W. Wensink |
Molecular Simulations of Complex Liquids and Confined Systems |
NFR, Univ. of Groningen |
| Dr C. Dechsiri |
Particle transport in fluidized beds -- Experiments and Stochastic models |
Dept. of Maths, Univ. of Bochum; Dept. of Metallurgy, Univ. of Liverpool; Shell Global Solutions |
| Ir R. la Riviere |
CaNS, an automated and predictive maintenance system for gas treatment installations |
NAM |
| Dr S. Schaafsma |
Fluidized bed granulation |
Dept. of Pharmacy, Univ. of Groningen |
| Dr M. Cioffi |
Rheokinetics |
ERASMUS; Dept. of Chem. Eng., Univ. of Groningen |
| Dr G.P. Hartholt |
Particle mixing in gas fluidized beds |
Univ. of Groningen |
| Dr E. Marring |
Fluidization and discharge of cohesive powders |
Dept. of Chem. Eng., Univ. of Groningen |
Master Students |
| Ir J. Prins |
Menging en segregatie in gefluidiseerde bedden |
|
| Ir H. Paarhuis |
Gefluidiseerde bedden. Menging en segregatie, verblijftijdspreiding |
|
| Ir H. Sie |
Wervels, Wrevel en wat dies meer zij |
|
| Ir H. Arends |
Cycloononderzoek. Een kritische kijk op het kritisch beladingsconcept van Muschelknautz |
|
| Ir E. Romp |
Gefluidiseerde bedden. Menging en segregatie |
|
| Ir H. Grommers |
Cyclonen. -Vortex lengte -stromings profielen -deeltjesgrootte analyse |
|
| Ir M.A. Luttmer |
Fluidisatie technologie. Invloed van de gasvochtigheid op het fluidisatie proces |
|
| Ir B. Kamphuis |
Een mengcriterium voor gefluidiseerde bedden |
|
| Ir R. la Riviere |
Methods for the determination of particle residence time distribution in continuous gas fluidised beds |
|
| Ir J.H. Moes |
De stroming veroorzaakt door een opstijgende gasbel in een vloeistof |
Dept. of Maths, Univ of Groningen |
| Ir S. Riedstra |
Visual observation of mixing mechanisms by means of X-ray radiation and endoscope |
Dept. of Chem. Eng, University College London |
| Ir H. Bunt |
Invloed van de bedhoogte, de poedersamenstelling en de kolomdimensies op de deeltjesmenging in gefluidiseerde bedden |
|
| Ir H. Verkaik |
Modellering van batch gefluidiseerde bedden |
|
| Ir W. Meetsma |
Gravity based downhole dehydration. Theory and process simulation |
Shell Exploration |
| Ir H.J. Finkers |
Onderzoek naar stromingsgedrag van industriele poeders in poederafvul-apparatuur (een benadering op deeltjes-, bulk- en proces niveau" |
Calumatic |
| Ir E.-H. Meindertsma |
Particle residence time distribution in continuously operated vertical and horizontal fluidized beds |
|
| Ir R. Postma |
Karakteriseren en optimaliseren van een PoC |
Bureau M+I, NOVEM |
| Eng. A. Berrino |
Numerical simulation of cyclones and swirl tubes |
Shell Global Solutions |
| A.V. Ganesh, B.Sc. |
Characterization of foams |
|
| B. Baratte |
Centrifugal separators for the FCC process |
Shell Global Solutions |
| Ir F. Snieders |
The behaviour of coarse particles in an interconnected fluidised bed |
Depts. of Chem. Eng., University College London and University of Birmingham |
| Drs H.W. Stuut |
Stochastic models for transport in a fluidized bed |
Dept. of Maths, University of Groningen |
| Drs W.B. Rass |
A numerical model of the flow past a spherical cap bubble
rising in a fluidized bed |
Dept. of Maths, University of Groningen |
| Ir J.-J. van Dijk |
X-ray studies into the influence of baffles on bubble hehaviour and particle mixing and fluidized bed granulation |
Dept. of Chem. Eng., University College London |
| Ir W. Wage |
Invloed van baffles op de deeltjesmenging in gefluidiseerde bedden |
|
| Ir E. Wensink |
The effect of moisture on interparticle forces. Investigated by means of molecular dynamics simulations |
Dept. of Biophysical Chemistry, Univ. of Groningen |
| Ir M.T. Mos |
Fluide bed agglomeratie |
|
| Ir P.J.A.J.Boot |
Flow field and performance measurements in a tangential cyclone |
Shell Global Solutions |
| Ir N. Koops |
Ontwikkelen conditiemodellen pijpleiding, manifold en Joule Thomson klep |
NAM |
| Ir A. Udding |
The optimisation of axial cyclones in FCC third stage separators |
Shell Global Solutions |
| Ir J. ter Horst |
The optimisation of fluid catalytic cracking gas cyclones |
Shell Global Solutions |
| Ir T. Marx, T |
Mixing and segregation in fluidised bed granulation |
Dept. of Pharmacy, Univ. of Groningen, Depts. of Chem. Eng., University College London and University of Birmingham |
| Ir M.P. Hoogerwerf |
Effect of conduit characteristics on the deposition of various powders in horizontal pipelines and bends |
Dept. of Chem. Eng. National University of Singapore |
| Ir A.J. van der Velden |
Steps towards better swirl tube operation, Vol. I |
Shell Global Solutions |
| Ir M. de Groot |
Steps towards better tangential cyclone operation |
Shell Global Solutions |
Ir A.J. van der Velden
and
Ir M. de Groot |
Steps towards better swirl tube operation, Vol II |
Shell Global Solutions |
| Ir T. Girardot |
A study to determine the efficiency of cyclone separators using narrowly dispersed powders |
Dept. of Chem. Eng., National University of Singapore |
| Ir P. van den Berg |
The rise of bubbles and solid particles in the proximity of a plane wall: a numerical study |
Dept. of Maths, Univ. of Groningen |
| Ir L. Blauw |
Conditiemodellen voor een betere CAnS in de 21ste eeuw |
NAM |
| Ir H.C. Breed |
Validatie van het Capaciteits Analyse Systeem |
NAM |
| Ir R.J. Reuvekamp |
Effect of conduit characteristics of various powders in pneumatic conveying systems |
Dept. of Chem. Eng., National University of Singapore |
| Ir E. van der Zwan |
PET, a new method for analyzing fluidized beds |
University Hospital, Groningen; University of Bochum |
| F. van de Wiel |
PET investigation of particle dynamics in fluidized beds |
University Hospital, Groningen; University of Bochum |
| B.S. Sæthre |
Interfacial area and mass transfer in a high intensity mixer |
ProPure; Industrial Instrumentation, UiB |
| R. Lie |
Sand transport in horizontal tubes |
Rogalands Forskning; Optical Physics, UiB |
| A. Ghione |
Analysis and interpretation of PET data for fluidization |
University Hospital Groningen; University of Genova; University of Bochum |
| E. Kvinnesland |
Single-phase characterization of the inlet arrangement schoepentoeter |
HiPGaS project |
| D. Christensen |
Single-phase characterization of the new open spinlet arrangement |
HiPGaS project |
| S. Jacobsson |
Single-phase characterization of the Verlaan cyclone |
HiPGaS project |
| R. Heimvik |
SOFC fuel cells |
Prototech AS |
| R.B. Asserson |
Interfacial tension measurements of freon hydrates by means of droplet deposition and contact angle measurements |
HYPERION project |
| Dagfinn Mæland |
Sintering and impedance spectroscopy characterisation of nanoparticle-based functional materials for solid oxide fuel cells |
NanoSOFC project, NFR, Prototech AS |
| O. Thormodsæter |
Production and characterization of YSZ nanoparticles and thin films for planar ceramic SOFC electrolytes |
NanoSOFC project, NFR, Prototech AS |
| H. Pedersen |
Formation, particle size distribution and flow dependence of Freon (R11) hydrates in multiphase flow systems |
HYADES projekt, NFR, SINTEF, StatoilHydro, Chevron |
| Z. Kilinc |
Formation and particle size distribution of cyclopentane hydrates in a multiphase flow system |
HYADES projekt, NFR, SINTEF, StatoilHydro, Chevron |
| E. D. Fatnes |
Numerical simulation of the flow and plugging behaviour of hydrate particles |
HYADES projekt, NFR, SINTEF, StatoilHydro, Chevron |
| V. Eikill |
Characterization of the anode and cathode materials for solid oxide fuel cells (SOFC's) |
NFR, CMR Prototech |
| R.-D. Nyheim |
Hybride eksplosjoner mellom "ENSACO conductiv carbon black 350G" og propangass |
CMR Gexcon |
| V. I. Gjerde |
The natural vortex length in centrifugal separators |
NFR, University of Utrecht |
| Ø. L. Aasen |
Experimental investigation of particle trajectory through an hydrocyclone using a Positron Emission Tomography (PET) scanner |
Aker Solutions, NFR |
| M. A. Dahl |
New experimental techniques to study the adhesion to various solid surfaces of hydrate-relevant droplets and particles |
NFR, SINTEF, StatoilHydro, Chevron |
| S.-A. Marthinussen |
The effect of fluid viscosity on hydrocyclone performance |
Aker Solutions, NFR |
| D. G. Fonnes |
Investigation of particle trajectories in hydrocyclones using positron emission tomography and numerical simulations |
Aker Solutions, NFR |
| T. Rødland |
Experimental and Theoretical Study on the Effect of Wall Roughness on the Phenomenon "End of the Vortex" in Swirl Tubes |
Utrecht University, NFR |
| I. Notøy |
Experimental and simulational study of particle deposition and intial plugging in pipeline flow using model particles |
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