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Master of Science in Applied Physics

Master of Science in Applied Physics. Master track. Physics of Transport in Fluids. cellular structures, inkjet printers blood flow fish, insects, birds musical intruments chemical reactors, turbines, engines wind mills, ships, airplanes buildings, rivers, harbours volcanoes

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Master of Science in Applied Physics

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  1. Master of Science in Applied Physics Master track Physics of Transport in Fluids

  2. cellular structures, inkjet printers blood flow fish, insects, birds musical intruments chemical reactors, turbines, engines wind mills, ships, airplanes buildings, rivers, harbours volcanoes glaciers oceans, planetary atmospheres O(<<1mm) | O(1–10 cm) | O(1–10 m) | O(10–100 m) | O(100 m–10 km) | O(>> 1000 km) Transport in fluids

  3. Length scales: O(<< 1 mm) | O(>> 1000 km) Time scales: O(<< 1 sec) | O(>> 1000 years) Scales

  4. Physics of Transport in Fluids:3 research groups • Vortex Dynamics & Turbulence (WDY)(Profs Herman Clercx, GertJan van Heijst, Federico Toschi) • Mesoscopic Transport Phenomena (MTP)(Prof Anton Darhuber) • Transport in Permeable Media (TPM) • (Prof Olaf Adan) Building Cascade

  5. Research themes at WDY • Droplets in 3D turbulent flows • Transport and mixing in 2D turbulent flows • Vortex dynamics • Viscous mixing • Physics of the atmosphere  Combination of theoretical, experimental and numerical work (tailor-made to the student’s interests).

  6. 3D turbulence • order  chaos • L.F. Richardson (1925)‘Big Whirls’:“Big whirls have little whirls,which feed on their velocity.Little whirls have lesser whirls,and so on to viscosity” • Variety of applications in geophysical and industrial situations

  7. Example project:Decay and breakup of wake vortices due to external turbulence movie

  8. Example project (continued) t t t t t t l = 8.6 b0 b0

  9. Example project (continued)

  10. 2D turbulence • 3D: • order  chaos • 2D: • chaos  order movie

  11. Example project:Electromagnetically forced 2D turbulence

  12. Vortex dynamics • Closely related to 2D and 3D turbulence • Many geophysical applications • Laboratory experiments in rotating/stratified fluids • High-resolution numerical simulations

  13. Physics of the atmosphere • Close collaboration with KNMI • Many possibilities for external assignments and graduation projects

  14. MTP: small scales Contact line control during wetting & dewetting

  15. MTP: small scales Enhanced oil recovery

  16. MTP: small scales Micro-fluid dynamics: manipulating drops in small channels micro-mixing

  17. TPM: transport in porous materials Moisture transport in building materials (concrete, brick) Ion transport and crystallization Coatings Pore-scale modelling NMR and porous media

  18. TPM: transport in porous materials

  19. Master track Transportfysica Opbouw van de Master-track: 17 ECTS track-vakken: 2 x 4 ECTS track-verplichte vakken 3 x 3 ECTS track-keuzevakken 14 ECTS keuzevakken: 5 – 14 ECTS technische keuzevakken 9 – 0 ECTS vrije keuzevakken 10 ECTS algemeen verplichte vakken 19 ECTS externe stage 60 ECTS afstudeerproject ____________________ 120 ECTS totaal

  20. Track-verplichte vakken: 3T100 Advanced Fluid Dynamics (van Heijst) 4 ECTS 3T340 Micro- and Nanofluidics (Darhuber/Harting/Huinink) 4 ECTS Track-keuzevakken: omvang per vak 3 ECTS

  21. Elective courses Fluids (WDY, MTP) 3T380 Advanced Computational Fluid Dynamics (Toschi/Clercx/Harting/…) 3T370 Experimental Methods in Transport Physics (Darhuber/Trieling/vdWater /...) 3T360 Hydrodynamic Stability (Clercx/Kamp/van de Wiel) 3T350 Chaos (Toschi/vdWater) 3T280 Turbulent Flow Phenomena (Trieling/van de Wiel) 3T250 Geophysical Fluid Dynamics (van Heijst) Permeable Media (TPM) 3F240 NMR/MRI (Kopinga/Strijkers) 3F250 Transport in Porous Media (Pel) 3S390 Biosensors for Medical Diagnostics (van IJzendoorn)

  22. Elective courses other groups / departments: 2DN41 Aeroacoustics (Rienstra) 3P110 Introduction to Plasma Physics (Engeln/Rapp) 4P510 Renewable Energy Sources (van Noort/Kramer/van de Sanden/Creatore) 4P540 Multiphase Flow with Heat Effects (van der Geld) 4P060 Fundamentals of Gas Dynamics (Smeulders) 4P630 Application of FEM to Heat and Flow Problems (Rindt) 4P700 Turbo Machinery (de Lange) 4P710 Micro Heat Transfer (Frijns) 4P720 Wind Energy (van Bussel) 8W090 Cardiovascular Fluid Mechanics (van de Vosse) 8W150 Multi-fluid Mechanics (Anderson) 8W270 Fluid Biomechanics (van de Vosse)

  23. Klinische Fysica Keuzevakken: 3F190 Clinical MRI (Wijn) 3F200 Medical Physics (Wijn) 3F230 Measuring and Monitoring of Vital Functions (Wijn) Keuzevakken andere faculteiten: 8H010 New Developments in Fluorescence Microscopy on Living Tissues (Slaaf) 8N020 Physiological NMR (Nicolaij) 8S070 Clinical Chemistry (Vader) 8S080 Protein Engineering (Merkx) 8W090 Cardiovascular Fluid Mechanics (van de Vosse)

  24. Graduation project • a graduation project can be theoretical, numerical,experimental, or a combination of these • supervision by one of the PhD students together with one of the staff members in the section

  25. More information WDY: www.fluid.tue.nl MTP: via web page faculteit TPM: via web page faculteit

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