People
PhD Candidates / Postdocs
Kevin van As
PhD candidate
- Coupling Optics & Fluid Mechanics
Xiaolin Wu
PhD Candidate
- Optical measuring techniques / Aorta and Heart Model
Ruipeng Xu
PhD Candidate
- CFD simulations of air flows in lungs and medical drug delivery optimization strategies
Edoardo Cascioli
PhD Candidate
- Liquid metal cooled nuclear reactors
Fei Xu
PhD Candidate
- Fluid Mechanics of Human Heart
Jason Voorneveld
PhD Candidate (external)
- 4D blood flow tracking in the heart
Joe Juffermans
PhD candidate (external)
- MRI of aortic aneurysm/ RADAR study (LUMC Leiden)
Hicham Saaid
PhD candidate (external)
- 3D Experimental Flow Dynamics in Left Ventricle Model with Valves
Patrick Schrijvers
PhD Candidate
- Simulations of Urban Heat Island Effects
Dr. Saeid Khalafvand (Former Postdoc 2015-2018)
Postdoc
- 4D Flow and Heart Failure: CFD of the Blood Flow in Pulsating Heart
MSc Students
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16. Chibuikem Obiji (numerical), “Numerical simulations of a metal vapour flow inside a vapour distribution chamber”, TU Delft / ME (icw. Elin Vesper)
15. Rense Koolstra (numerical), “Numerical simulations of heat transfer in empty and coarse-grained porous media fille dcavities”, TU Delft / ChemE (icw. Manu Chakkingal)
14. Adriana Pastin (numerical), “Numerical simulations of blood flow and drug delivery from a drug-eluting stents in patient-specific arteries”, TU Delft / ChemE
13. Sabino Schiavo (numerical), “Numerical simulations of heat transfer of natural convection in partially filled coarse-grained porous media”, TU Delft / ChemE (icw. Manu Chakkingal))
12. Roland Voigt (numerical), “Double diffusive convection in a coarse-grained porous media”, TU Delft / ChemE ((icw. Manu Chakkingal))
11. Domenykas Krauklys (numerical), “SPH simulations in simplified and patient-specific aorta”, TU Delft / ChemE (icw. Romana Perinajova)
10. Jonhatan Lorenzo Mercao (numerical), “Simulations of flow instabilities in simplified and patient-specific aneurysms”, TU Delft / ChemE (icw. Romana Perinajova)
9. Michiko van Ouwendorp (numerical), “Modeling and simulations of atherosclerosis initialization and progression”, TU Delft / ChemE
8. Sharon Bosch (numerical), “LES simulations of the natural convection in simplified porous media structures”, TU Delft / ChemE (icw. Manu Chakkingal)
7. Bouke Kaaks (numerical), “T-RANS simulations of jet instabilities in liquid-metal cooled nuclear reactors”, TU Delft / ChemE (icw. Edoardo Cascioli)
6. Yoran Pekaar (numerical), “DNS of the MHD effects in thermal convection”, TU Delft / Applied Physics
5. Stefanie Gurzing (experimental), “Stereoscopic PIV of a patient specific brain aneurysm”, TU Delft / TU Aaachen, Germany
4. Martina Saponara (mumerical), “Numerical simulations of reactive scalar distribution in simplified street-canyons: aspect ratio effects”, TU Delft / La Sapienza, Rome, Italy
3. Ludwig Rasmijn (numerical), “DNS of thermomagnetic convection”, TU Delft / Applied Physics
2. Bob Kalkman (numerical), “Modelling of oxygen mass transfer in simplified and patient specific aneurysm”, TU Delft / ChemE (icw. Romana Perinajova)
1. Jonathan Schimmel (experimental), “Stereoscopic PIV of a stenosed artery”, TU Delft / ChemE
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2018:
70. Nima Rounaghi, “Side heated natural convection in coarse-grained porous media: an experimental study”, MSc / TU Delft / TNW / Applied Physics (December 2018)
69. Lars Zondag, “Parallelization of RANS solver with obstacles using MPI”, MSc/ TU Delft /TNW / Applied Physics (October 2018)
68. Julia de Geus, “Mixed convection: a CFD study in a side heated cavity filled with coarse grained porous media”, MSc/TU Delft/Chemical Engineering (September 2018)
67. Espen Tierolff, “Extending a RANS solver with heat and pollution modules for dispersion problems in urban areas with vegetation”, MSc / TU Delft / TNW / Applied Physics (June 2018)
66. Merel Toussaint, “Numerical analysis of hemodynamics in intracranial aneurysms: Proposing a third hemodynamic criterion for predicting rupture sites”, MSc / TU Delft / TNW / Applied Physics (April 2018)
2017:
65. Stephan Zwinkels, “Numerical crowd evacuation and heavy gas dispersion: an integrated model”, MSc / TU Delft / TNW / Applied Physics (December 2017)
64. Jorne Boterman, “Coherent optical scattering with seeded flow: A numerical study of speckle dynamics”, MSc / TU Delft / TNW / Applied Physics (icw. Dr. N. Bhattacharya, TUDelft/TNW/Applied Physics/ImgPhys Dept.) (December 2017)
63. Rui Li, “Computational Fluid Dynamics Methodology for Simulation of Blood Flow in Patient-Specific Carotid Artery: Validation of Two-Dimensional Three-Components (2D3C) PIV”, Msc/TU Delft/Chemical Engineering (November 2017)
62. Bas Vissers, “A study into the effects of SO2 on the Generic Reaction Set: Application to and urban street canyon”, MSc / TU Delft / TNW / Chemical Engineering (September 2017)
61. Romana Perinajova, “Numerical simulations of blood flow and oxygen mass transfer in a patient specific cerebrovascular system”, MSc / TU Delft / TNW / Chemical Engineering (September 2017)
60. Patrick Bakker, “Magnetic Drug targeting in a Polyhedral Meshed Realistic Airway Model”, MSc / TU Delft / TNW / Chemical Engineering (July 2017)
59. Amit Koikkarah Aji, “Stress Analysis of early Stage Atheroscleros in Patient Specific carotid Artery Bifurcation: A FSI simulation study”, MSc / TU Delft / ChemE (July 2017)
58. Giorgio Fagioli, “Numerical analysis of blood flow patterns in simplified aortic root with prescribed valve kinematics”, MSc / TU Delft / Mechanical Engineering / ME (Icw. Prof. C. Poelma) (June 2017)
57. Aswin Muralidharan, “In-Vitro Validation of cardiovascular Flows using Particle Imaging Velocimetry: A patient specific validation study”, MSc / TU Delft / TNW / Chemical Engineering (May 2017)
56. Edoardo Antonini, “Blood Patterns and Leaflet Motion of the Aortic Valve using Fluid-Structure Interaction”, MSc / La Sapenza University, Mechanical Engineering (I.c.w. Prof. D. Borello) (March 2017)
2016:
55. Daan Kuitenbrouwer, “Natural Coastal Protection From Offshore Pollution in the Northern Gulf of Mexico”, MSc / TU Delft / TNW / Applied Physics (icw. Prof. dr. ir. A. J. H. M. Reniers and Dr. S. de Roode, CiTG) (September 2016)
54. Isabelle Blakborn,” Flow Experiments in Carotid Artery Bifurcation for Magnetic Drug Targeting: PIV, PC-MRI and LDA”, MSc / TU Delft / TNW / Applied Physics (September 2016)
53. Boris Naar, “Numerical study of the microcirculation using resolved CFD-DEM simulations”, MSc / TU Delft / TNW / Applied Physics (September 2016)
52. Kristian P. S. van Berlo, “Numerical Simulation of the Continuous Blood Seperation Process”, MSc / TU Delft / TNW / Chemical Engineering (July 2016)
51. Sagar Harinarayan, “Investigation of flow profiles and particle depoistion efficiency in carotid artery“, MSc / TU Delft / TNW / Chemical Engineering (July 2016)
50. Leon Hassing, “Developing the Selective Seeding micro-PIV research technique”, MSc / TU Delft/ La Sapienza Roma Italy / TNW / Applied Physics (Erasmus exchange student from TU Delft at La Sapienza, Rome, Italy research stay: 01-03-2015/01-09-2015) (July 2016)
49. Madelon Molhoek, “Numerical Study of a Drug Eluting Stent in 3D”, MSc / TU Delft / TNW / Chemical Engineering (icw. Dr. V. Steijn / PPE / ChemE and Dr. H. M. M. van Beusekom Erasmus MC Rotterdam) (June 2016)
48. Joost Klip, “A Numerical Model for the Growth of an Atheromatous Plaque“, MSc / TU Delft / TNW / Applied Physics (Feb 2016)
47. Joep Hennen, “Improved Eddy Viscosity Modeling of Wind Turbine Wakes using Actuator Disk Method”, MSc / TU Delft / TNW / Applied Physics (Feb 2016)
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2015:
46. Okke Groen, “Numerical Simulations of Fluid-Structure Interactions (FSI) in Patient-Specific Carotid Artery”, MSc / TU Delft / TNW / Applied Physics (Sep 2015)
45. G. B. Loozen, “Monitoring pulsating flow with dynamic speckle fields”, MSc / TU Delft / TNW / Applied Physics (icw. Dr. N. Bhattacharya, TNW/ImgPhys Dept.) (Jul 2015)
44. Kevin van As, "Interferometric Scattering of Light by an Ensemble of Flowing Spherical Particles: A Numerical Study", MSc / TU Delft / TNW / Applied Physics (icw. Dr. N. Bhattacharya, TNW/ImgPhys Dept.) (Jul 2015)
43. Ruben Zinsmeester, “Providing fundamental insights into thermo-magnetic convection in paramagnetic fluids”, MSc / TU Delft / TNW / Applied Physics (Mar 2015)
2014:
42. Simon Riedinger, “Developing a Lagrangian particle tracking module for the study of particulate matter dispersion in complex urban areas”, MSc / TU Delft / TNW / Applied Physics (Dec 2014)
41. Corne Muilwijk, “On the modelling of chemical reactive pollutants in complex urban areas”, MSc / TU Delft / TNW / Chemical Engineering (Aug 2014)
40. Cha Li, “Numerical Modeling and Computer Simulations of Atherosclerosis”, MSc / TU Delft / TNW / Chemical Engineering (Jul 2014)
39. Jouke van der Krieke, “Simulations of Wall Shear Stress Dependent Transmural Flow and LDL Cholesterol Transport in Arteries”, MSc / TU Delft / TNW / Applied Physics (Jul 2014)
38. Gidi van de Belt, “Experimental study of fluid flow in the bifurcation of a patient specific carotid artery with severe stenosis: comparing PIV, PC-MRI and CFD”, MSc / TU Delft / TNW / Applied Physics (Jun 2014)
37. Jimmy Tjin, “Magnetic Drug Targeting in Human Airway Geometry”, MSc / TU Delft / TNW / Chemical Engineering (Apr 2014)
36. Maudy Mulder, “Experimental studies on heat transfer in thermo-magnetic convection for para- and dia-magnetic fluids”, MSc / TU Delft / TNW / AGH Krakow (Erasmus exchange student from TU Delft at AGH University of Science and Technology, Krakow, Poland, research stay: 01-02-2013/01-06-2013) (Apr 2014)
35. Malcolm Meyer, “Thermal Stratification within Urban Street Canyons: Sara3DClimat Flow Simulations”, MSc / TU Delft / TNW / Chemical Engineering (Apr 2014)
2013:
34. Beate Woszczek, “An analysis of the continuos casting process using a water scale model: an experimental study of the free surface behaviour”, Erasmus Exchange MSc student, AGH University of Science and Technology, Krakow, MSc / AGH Krakow, Poland (Erasmus exchange student from AGH University of Science and Technology, Krakow, Poland at TU Delft, research stay: 01-07-2012/01-12-2012) (Oct 2013)
33. Onno de Haan, “Validation of flow simulations in urban street canyons with thermal stratification using wind tunnel experiments”, MSc / TU Delft / TNW / Applied Physics (Jun 2013)
32. Heleen Doolaard, “Single and Multiphase Simulations of Non-Newtonian Blood Flow”, MSc / TU Delft / TNW / Applied Physics (Feb 2013)
2012:
31. Sinta de Wildt, “Capturing Transient Effects in Turbulent Flows with Passive Scalars over Urban Areas with hybrid RANS/LES approach”, MSc, TU Delft / TNW / Applied Physics (Aug 2012)
30. Mike van der Houwen, “Numerical Simulations of Pollutant Dispersion in Urban Areas with Reactive Scalars”, MSc, TU Delft / TNW / Applied Physics (May 2012)
29. S. Khakpour, “Experimental Studies of Local Particle Capturing Efficiency by Imposed Magnetic Field“, MSc, TU Delft / TNW / Chemical Engineering (2012)
2011:
28. R. van der Beek, “A fluorescence detection method for the investigation of the capture efficiency and particle distribution of super-paramagnetic microparticles“, MSc, TU Delft / TNW / Applied Physics (2011)
27. A. de Loor, “Modelling and simulations of atherosclerosis in realistic blood vessels”, MSc, TU Delft / TNW / Applied Physics (2011)
26. J. van der Starre, “Creating and testing a patient specific arterial phantom suitable for PIV and MRI flow measurements: Towards Magnetic Drug Targeting”, MSc, TU Delft/ TNW / Applied Physics (2011)
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2010:
25. C. J. Voesenek, “Numerical Simulations of Transitional Effects in MHD Flows”, MSc honour track Aerospace Engineering, TU Delft ( research conducted at MSP) (2010)
24. T. Busking, “Numerical Studies of Transient Effects in Turbulent Dispersion of Pollutants in Simplified Urban Areas at Laboratory scale”, MSc, TU Delft / TNW / Applied Physics (2010
23. B. Righolt, “Simulations of Blood Flow and Particle Distributions in Realistic Patient Based Arterial Geometries“, MSc, TU Delft / Applied Physics / EMC Rotterdam / LUMC Leiden (2010)
22. C.-L. Chao, “Numerical Analysis of Turbulent Dispersion of Pollutants in Simplified Urban Areas at Laboratory Scale“, MSc, TU Delft / TNW / Applied Physics (2010)
2009:
21. S. ten Cate, “Numerical simulations of MHD flow around magnetic obstacle in laminar and turbulent regimes“, MSc, UvA Amsterdam / (research conduceted at TU Delft / MSP) (2009)
20. E. Slingerland, “Quantification and Reduction of Convective Heat Transfer in the ‘Solior’ Solar Water Heater”, MSc, TU Delft / TNW / Applied Physics (2009)
19. D. C. Cohen Stuart, “The Development of a Discrete Particle Model for 3D Unstructured Grids: Application to Magnetic Drug targeting”, MSc, TU Delft / TNW / Applied Physics (2009)
18. B. ter Kuile, “Numerical Simulations of Pollutant Dispersion in Urban Areas with Vegetation Using a Modified k – e Model“, MSc, TU Delft / TNW / Applied Physics (2009)
17. J. W. Haverkort, “Analytical and Computational Analysis of Magnetic Drug Targeting in Simplified and Realistic Arterial Geometries”, MSc, TU Delft / TNW / Applied Physics (2008)
2008:
16. A. Alfieri, “Hybrid RANS/LES: comparative assessments of DES, LES and seamless hybrid approach”, MSc, TU Delft/Erasmus Exchange/University La Sapienza, Rome (2008)
2007:
15. C. Tralli, “LES and DES simulations of turbulent flows with an unstructured finite-volume solver with hybrid mesh“, TU Delft/Erasmus Exchange/University La Sapienza, Rome (2007)
14. A. Wibowo, “Experimental and numerical study of electromagnetically driven flows”, MSc, TU Delft / TNW / Applied Physics (2007)
2006:
13. R. Hagenzieker, "Numerical simulations of pollutant dispersion over complex urban areas", MSc, TU Delft / TNW / Applied Physics (2006)
2005:
12. N. Vegter, "Experimental and numerical studies of stable stratification in a cylindrical tank", MSc, TU Delft / TNW / Applied Physics and Shell Amsterdam (2005)
11. P. Orsini, “Development of the elliptic-blending based second-moment closure for turbo-machinery applications”, MSc, TU Delft/Erasmus Exchange/University La Sapienza, Rome, Italy (2005)
2004:
10. L. Noordijk, "Contribution to computational modelling of tunnel fires", MSc, TU Delft /TNW / Applied Physics and TNO-Bouw/TNO-Fire Safety (2004)
9. R.J. van Looy, "Simulating the mixing process of stable stratification in a cylindrical tank", MSc, TU Delft / TNW / Applied Physics and SHELL Amsterdam (2004)
2003:
8. A. Masic, "Numerical Simulations of Magnetic-Dynamo Effects", MSc, TU Delft / Nuffic / University of
Sarajevo / Faculty of Physics (2003)
7. R. van Doorn, "The efficiency and feasibility of energy conversion using a thermo-syphon in a transverse magnetic field”, MSc, TU Delft / TNW / Applied Physics (2003)
2002:
6. V. Huijnen, “A numerical study of buoyancy driven flows over flat and inclined surfaces in an open environment”, MSc, TU Delft / TNW / Applied Physics (2002)
2001:
5. G. Krstovic, "Numerical Simulation of Pollutant Dispersion in a Town Valley", M.Sc., TU Delft/Nuffic Netherlands organization for international cooperation in higher education) / University of Sarajevo / Faculty of Mechanical Engineering (2001)
2000:
4. D. Ball, "Turbulence Modelling of a MHD Channel Flows", MSc, TU Delft / TNW /Applied Physics and Corus Netherlands (2000)
1999:
3. E.J. de Winter, "Numerical Modelling of Magnetohydrodynamic Phenomena in the Aluminium Industry", MSc, TU Delft / TNW / Applied Physics and Aluminium Pechiney (France) (1999)
2. R.M.F. Rahamat, "Analysis and Modelling of Turbulent Channel Flow Subjected to Transverse Magnetic Field", MSc, TU Delft / TNW /Applied Physics, (1999)
1998:
1. G.M. van Uffelen, “Wall functions applied to natural convection in a tall air cavity”, MSc, TU Delft/TNW/TNO Delft, (1998)
BSc Students
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2018:
42. B. Bremmers, “Exploring vegetation impact on near-road aerosol by simulations using k-e turbulence model”, TU Delft / TNW / Applied Physics (August 2018)
41. M. J. Kortleve, “Deformation and breakup of non-Newtonian droplets under simple shear”, TU Delft / TNW / Molecular Science and Technology (August 2018) (icw. Ir. S. Mukherjee)
40. M. Q. Capelle, “Implementation and Validation of the Social Force Model for Crowd Behaviour”, TU Delft / TNW / Applied Physics (August 2018)
39. L. M. de Vlieger, “Numerical simulation of blood clot formation using COMSOL”, TU Delft / TNW / Applied Physics (August 2018)
38. M. Mascini, “Towards the Visualisation of the Turbulence Cascade”, TU Delft / TNW / Molecular Science and Technology (July 2018) (icw. Ir. S. Mukherjee, Dr. L. Portela)
37. M. C. Roebroeck, “Numerical modeling of a metal vapour flow inside a vapour distribution box”, TU Delft / TNW / Molecular Science and Technology (May 2018) (icw. J. E. Vesper MSc, Prof. C. R. Kleijn)
36. D. Dane, “One-dimensional modelling of oxygen concentrations in the human lungs”, TU Delft / TNW / Applied Physics (March 2018)
35. T. Epema, “Parametrisation study on flow and mass transfer in a symmetrically stenosed artery”, TU Delft / TNW / ChemE / MST (February 2018)
34. M. Bathelt, “Effects of stents on the flow and pressure distribution in the 1D human arterial tree model”, TU Delft / TNW / Applied Physics (January 2018)
2017:
33. D. Koletsos, “Natural Convection in a 2D Square Cavity with an Obstruction “, TU Delft / MST / ChemE (September 2017) (icw. MSc Manu Chakkingal)
32. T. Hardens, “Numerical Simulation of non-Newtonian Effects in Diabetes Type 2 Patients”, TU Delft / TNW / MST / ChemE (July 2017)
31. R. Broekhoven, “The accuracy of 2D Volume-Of-Fluid simulations of droplet deformation in a simple shear flow”, TU Delft / TNW / Applied Physics (July 2017) (I.c.w. MSc. S. Mukherjee)
30. M. Rozendaal, “One-dimensional blood flow modelling in the human arterial system with Finite Volume Methods”, TU Delft / double degree TNW / Applied Physics / Applied Mathematics (July 2017) (I.c.w. Prof. C. Vuik, Applied Mathematics/Numerical Analysis)
29. D. Akkerman, “Modelling of vegetation influence on local temperature distributions – A case study: courtyard in Israel”, TU Delft / TNW / Applied Physics (July 2017)
2016:
28. G. F. M. Havermans, “Comparison study of fluid-structure interaction methods for blood flow in 90 degree bend”, TU Delft / TNW / Applied Physics (September 2016)
27. D. Visser, “Simulating blood flow and oxygen transport in stenosed large arteries”, TU Delft / TNW / Applied Physics (July 2016)
26. A. G. Filipovic, “Desing and implementation of a sink term for the thermal energy equation pertaining to transpiration from vegetation”, TU Delft / TNW / Applied Physics / Applied Mathematics (double degree) (July 2016) (icw. Prof. dr. ir. C. Vuik. Applied Mathematics/Numerical Analysis)
25. M. Kortleven, “Simulation Verification and Optimization of a Vertical Axis Wind Turbine using CFD”, TU Delft / TNW / Applied Physics / Applied Mathematics (double degree) (July 2016) (icw. Prof. A. W. Heemink, Applied Mathematics/Mathematical Physics)
24. M. A. van Zon, “Nested Newton-type numerical model for describing single phase flows in enclosed systems”, TU Delft / TNW / Applied Physics / Applied Mathematics (double degree) (July 2016) (icw. Prof. dr. ir. C. Vuik. Applied Mathematics/Numerical Analysis)
23. S. de Haan, “Comparing Linear Elasticity to Hyper Elasticity in Artery Simulations using Two-Way FSI”, TU Delft / TNW / Applied Physics (July 2016)
22. T. H. Joosten, “Interferometric scattering of light by an ensemble of flowing spherical particles”, TU Delft / TNW / Applied Physics (July 2016) (icw. Dr. N. Bhattacharya, TNW/ImgPhys Dept. and Ir. K. van As)
21. F. J. Brull, “Extracting a Heartbeat from Speckle Pattern Analysis”, TU Delft / TNW / Applied Physics (June 2016) (icw. Dr. N. Bhattacharya, TNW/ImgPhys Dept. and Ir. K. van As)
20. J. W. N. Mol, “A Numerical Method for the Convection-Diffusion Equations around a Spherical particle with Surface reaction”, TU Delft / Applied Physics / Applied Mathematics (May 2016) (double degree) (icw. Dr. D.R. Van der Heul / TWN)
19. J. van der Auweraert, “Modelling of Wind Turbine Wake with a Sliding Mesh”, TU Delft / TNW / Applied Physics (Jan 2016)
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2015:
18. S.-J. Wang, “Analysis of the continuum surface force method”, TU Delft / Applied Physics / Applied Mathematics (double degree) (icw. Dr. D.R. Van der Heul / TWN) (Nov 2015)
17. E. T. Ijzermans, “Modelling the influence of a non-Newtonian viscosity model on the magnetic particle deposition in a 90deg bend”, TU Delft / TNW / Applied Physics (July 2015)
16. T. N. Schouten, “Stability analysis of the equations of motion for the 2014 Delft solar boat”, TU Delft / TNW / Applied Physics / Applied Mathematics (double degree) (icw. Dr. M. B. van Gijzen and Dr. D. R. van der Heul / TWN) (July 2015)
15. S. William, “Influencing the local deposition efficiency in a simplified lung geometry with external magnets”, TU Delft / TNW / Applied Physics (June 2015)
14. R. Biesheuvel, “CFD Analysis of a Single-Phase Non-Newtonian Model of Blood in a 90deg bent geometry”, TU Delft / TNW / Applied Physics (May 2015)
13. R. Knobel, “Numerical modeling of aerosol particle deposition during a complete respiratory cycle in a simplified lung geometry model”, TU Delft / TNW / Applied Physics (Mar 2015)
2013:
12. K. van As, “Numerical simulation of turbulent flows around fractal trees”, TU Delft / TNW / Applied Physics (Jul 2013)
2012:
11. M. Verdult, “Numerical Simulations of Turbulent Flows in Two-Dimensional Street-Canyons”, TU Delft / TNW / Applied Physics (2012)
2011:
10. H. O. G. Benschop, “Numerical Simulations of Flow Around Trees with Fractal Structures and Leaves”, TU Delft / TNW / Applied Physics (2011)
9. A. Mulder, “MRI Reconstruction and CFD Simulations of a Brain Vascular System“, TU Delft / TNW / Applied Physics (2011)
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2009:
8. A. Effting, “Simulation of the Flow and Heat Transfer in the Wake of a Magnetic Obstacle”, TU Delft / TNW / Applied Physics (2009)
7. L. Tan, “Numerical comparison of models for vegetation effects on airflows using the k – e turbulence model”, TU Delft / TNW / Applied Physics (2009)
6. R. van Driel, “The oxygen dependency of magnetic susceptibility of human blood: a numerical study“,
TU Delft / TNW / Applied Physics (2009)
2008:
5. M. A. N. Tjokrodirijo, “Comparative assessment of models for simulations of non-Newtonian effects in blood flow”, TU Delft / TNW / Chemical Engineering / Molecular Science and Technology (2008)
4. R.C.G. Opdam, “Numerical 3D simulation of blood flow in a symmetrical stenotic artery influenced by a strong non-uniform magnetic field“, TU Delft / TNW / Applied Physics (2008)
3. J.W.R. Peeters, “'Simulation of magnetohydrodynamics in gas metal arc welding“, TU Delft / TNW /
Applied Physics (2008)
2. S. Valk, “Numerical simulations of turbulent flows in complex urban areas: a case od the Delft University of Technology campus“, TU Delft / TNW / Applied Physics (2008)
2005:
1. R. Donizetti, “Numerical simulation of flow and dispersion over an array of 2D obstacles”, TU Delft / Erasmus Exchange / University of Bergamo, Italy (2005)