CURRICULUM VITAE Daniel Werner Meyer, Dr. sc. ETH ... - ETH - IFD
CURRICULUM VITAE Daniel Werner Meyer, Dr. sc. ETH ... - ETH - IFD
CURRICULUM VITAE Daniel Werner Meyer, Dr. sc. ETH ... - ETH - IFD
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
<strong>CURRICULUM</strong> <strong>VITAE</strong><br />
<strong>Daniel</strong> <strong>Werner</strong> <strong>Meyer</strong>,<br />
<strong>Dr</strong>. <strong>sc</strong>. <strong>ETH</strong> Zurich, Dipl. Ma<strong>sc</strong>h. -Ing. <strong>ETH</strong>/HTL<br />
Dozent (Lecturer), Institute of Fluid Dynamics, <strong>ETH</strong> Zurich, Switzerland<br />
ADDRESS<br />
EDUCATION<br />
EMPLOYMENT<br />
TEACHING EXPERIENCE<br />
Institute of Fluid Dynamics<br />
<strong>ETH</strong> Zurich<br />
Sonneggstrasse 3<br />
CH-8092 Zürich, Switzerland<br />
Phone: ++41 44 633 9273<br />
Fax: ++41 44 632 1147<br />
E-mail: meyerda ethz.ch<br />
2003–2008 Doctorate (Ph.D.), Institute of Fluid Dynamics, <strong>ETH</strong><br />
Zurich, Switzerland<br />
2000–2003 Diplom (M.Sc.) in mechanical engineering, <strong>ETH</strong> Zurich,<br />
Switzerland<br />
1999–2000 Vordiplom (B.Sc.) in mechanical engineering, <strong>ETH</strong><br />
Zurich, Switzerland<br />
1995–1998 Dipl. Ma<strong>sc</strong>h. -Ing. HTL (B.Sc.), Hoch<strong>sc</strong>hule Technik+Architektur,<br />
Lucerne, Switzerland<br />
1991–1995 Apprenticeship as Machine Designer, Schindler E<strong>sc</strong>alator<br />
Ltd., Lucerne, Switzerland<br />
2011– Dozent (Lecturer), <strong>ETH</strong> Zurich, Switzerland<br />
2010– Oberassistent (Research Associate), Institute of Fluid<br />
Dynamics, <strong>ETH</strong> Zurich, Switzerland<br />
2008–2010 Postdoctoral Scholar, Department of Energy Resources<br />
Engineering, Stanford University, Stanford<br />
CA, USA<br />
2000–2009 Development Engineer, Aerodynamic Development,<br />
MAN Diesel & Turbo, Zurich, Switzerland<br />
2003–2008 Teaching Assistant including activities as Lecturer,<br />
Institute of Fluid Dynamics, <strong>ETH</strong> Zurich, Switzerland<br />
2001–2002 Research Assistant, Turbomachinery Laboratory and<br />
Institute of Fluid Dynamics, <strong>ETH</strong> Zurich, Switzerland<br />
1998–2000 Research and Teaching Assistant, Hydraulics Laboratory,<br />
Hoch<strong>sc</strong>hule Technik+Architektur, Lucerne,<br />
Switzerland<br />
2011 Fall Stochastic Methods for Fluid Dynamics<br />
2011 Spring Turbulence Modeling<br />
CV <strong>Daniel</strong> W. <strong>Meyer</strong> — page 1 of 6
AWARDS<br />
BOOK CHAPTERS<br />
JOURNAL ARTICLES<br />
2003 Silver Medal <strong>ETH</strong> Zurich for outstanding diploma<br />
thesis, graduated third in mechanical engineering (86<br />
students)<br />
1998 Award for outstanding diploma thesis, Hoch<strong>sc</strong>hule<br />
Technik+Architektur, Lucerne<br />
1995 Certificate of Honor for excellent results at the Swiss<br />
Federal Machine Designer professional exams<br />
(1) P. Jenny and D. W. <strong>Meyer</strong>, Transported Probability<br />
and Mass Density Function (PDF/MDF) Methods for<br />
Uncertainty Assessment and Multi-Scale Problems,<br />
in Numerical Analysis of Multi<strong>sc</strong>ale Problems, I.G.<br />
Graham, et al., Editors. Springer: New York, 2012.<br />
(2) D. W. <strong>Meyer</strong>, Modeling of Turbulence Modulation in<br />
Particle or <strong>Dr</strong>oplet Laden Flows. Journal of Fluid<br />
Mechanics, accepted, 2012.<br />
(3) D. W. <strong>Meyer</strong> and R. Deb, Modeling Molecular Mixing<br />
in a Spatially Inhomogeneous Turbulent Flow.<br />
Physics of Fluids, 24(2), 2012.<br />
(4) F. Müller, P. Jenny, and D. W. <strong>Meyer</strong>, Probabilistic<br />
Collocation and Lagrangian Sampling for Advective<br />
Tracer Transport in Randomly Heterogeneous Porous<br />
Media. Advances in Water Resources, 34(12), 2011.<br />
(5) D. W. <strong>Meyer</strong>, P. Jenny, and H. A. Tchelepi, A Joint<br />
Velocity-Concentration PDF Method for Tracer Flow<br />
in Heterogeneous Porous Media. Water Resources<br />
Research, 46(12), 2010.<br />
(6) D. W. <strong>Meyer</strong> and H. A. Tchelepi, Particle-Based<br />
Transport Model with Markovian Velocity Processes<br />
for Tracer Dispersion in Highly Heterogeneous Porous<br />
Media. Water Resources Research, 46(11), 2010.<br />
(7) D. W. <strong>Meyer</strong>, A New Particle Interaction Mixing<br />
Model for Turbulent Dispersion and Turbulent Reactive<br />
Flows. Physics of Fluids, 22(3), 2010.<br />
(8) D. W. <strong>Meyer</strong> and P. Jenny, Micromixing Models for<br />
Turbulent Flows. Journal of Computational Physics,<br />
228(4), 2009.<br />
(9) D. W. <strong>Meyer</strong> and P. Jenny, A Mixing Model Providing<br />
Joint Statistics of Scalar and Scalar Dissipation Rate.<br />
Proceedings of the Combustion Institute, 32(1), 2009.<br />
(10) D. W. <strong>Meyer</strong> and P. Jenny, An Improved Mixing<br />
Model Providing Joint Statistics of Scalar and Scalar<br />
Dissipation. Combustion and Flame, 155(3), 2008.<br />
(11) D. W. <strong>Meyer</strong> and P. Jenny, Consistent Inflow and<br />
Outflow Boundary Conditions for Transported Probability<br />
Density Function Methods. Journal of Computational<br />
Physics, 226(2), 2007<br />
CV <strong>Daniel</strong> W. <strong>Meyer</strong> — page 2 of 6
INVITED TALKS<br />
REFEREED<br />
CONFERENCE PAPERS<br />
(12) D. W. <strong>Meyer</strong> and P. Jenny, A Mixing Model for Turbulent<br />
Flows Based on Parameterized Scalar Profiles.<br />
Physics of Fluids, 18(3), 2006.<br />
(1) Simulating Flow and Transport in Turbulent and<br />
Subsurface Flows with PDF Methods. Hosted by<br />
John K. Eaton, Mechanical Engineering, Stanford<br />
University, USA, 2012.<br />
(2) Modeling Mixing and Dispersion of Tracers in Turbulent<br />
and low-Re Subsurface Flows. Hosted by Stephen.<br />
B. Pope, Sibley School of Mechanical and<br />
Aerospace Engineering, Cornell University, USA,<br />
2011.<br />
(3) Uncertainty Assessment of Tracer Dispersion in Heterogeneous<br />
Porous Media with Markovian Velocity<br />
Processes. Hosted by Paulo Salandin, Department of<br />
Hydraulic, Environmental, Maritime, and Geotechnical<br />
Engineering, University of Padova, Italy, 2010.<br />
(4) Application of a Concentration PDF Method for<br />
Tracer Dispersion in Highly Heterogeneous Porous<br />
Media. Hosted by Wolfgang Kinzelbach, Institute of<br />
Environmental Engineering, <strong>ETH</strong> Zurich, Switzerland,<br />
2010.<br />
(5) Stochastic Processes for the Modeling of Tracer Dispersion<br />
in Porous Media. Hosted by Patrick Jenny,<br />
Thermo- and Fluid Dynamics Colloquium, <strong>ETH</strong> Zurich,<br />
Switzerland, 2009.<br />
(6) Modeling molecular mixing in PDF-methods and the<br />
LES-FDF context. Hosted by Heinz Pit<strong>sc</strong>h, Center for<br />
Turbulence Research, Stanford University, Stanford<br />
CA, USA, 2008.<br />
(7) Mixing Models for Turbulent Reactive Flows - Challenges<br />
and Prospects. 6th CFD Seminar, <strong>ETH</strong> Zurich,<br />
Switzerland, 2007.<br />
(1) D. W. <strong>Meyer</strong>, P. Jenny and H. A. Tchelepi, An Eulerian<br />
Joint Velocity-Concentration PDF Method for<br />
Reactive Transport in Highly Heterogeneous Porous<br />
Media. EGU General Assembly, Vienna, Austria,<br />
2011.<br />
(2) D. W. <strong>Meyer</strong>, P. Jenny and H. A. Tchelepi, Modeling<br />
Dispersion in Heterogeneous Porous Media with<br />
Stochastic Diffusion Processes for Fluid Particle Velocities.<br />
SIAM Conference on Mathematical & Computational<br />
Issues in the Geo<strong>sc</strong>iences, Long Beach,<br />
USA, 2011.<br />
CV <strong>Daniel</strong> W. <strong>Meyer</strong> — page 3 of 6
CONFERENCE PAPERS<br />
THESES<br />
(3) D. W. <strong>Meyer</strong>, P. Jenny and H. A. Tchelepi, An Eulerian<br />
Joint Velocity-Concentration PDF Method for<br />
Solute Dispersion in Highly Heterogeneous Porous<br />
Media. SIAM Conference on Mathematical & Computational<br />
Issues in the Geo<strong>sc</strong>iences, Long Beach,<br />
USA, 2011.<br />
(4) F. Müller, D. W. <strong>Meyer</strong> and P. Jenny, An Accurate<br />
Probabilistic Collocation Method for Uncertainty<br />
Propagation in Tracer Transport. AGU Fall Meeting,<br />
San Franci<strong>sc</strong>o, USA, 2010.<br />
(5) P. Jenny, H. A. Tchelepi and D. W. <strong>Meyer</strong>, Uncertainty<br />
Assessment of Transport in Porous Media Based on a<br />
Probability Density Function Method. In Proceedings<br />
of the Tenth European Conference on the Mathematics<br />
of Oil Recovery, Amsterdam, The Netherlands,<br />
2006. EAGE.<br />
(6) D. W. <strong>Meyer</strong> and P. Jenny, Stochastic Mixing Model<br />
for PDF Simulations of Turbulent Reactive Flow. In<br />
Proceedings of the Tenth European Turbulence Conference,<br />
Trondheim, Norway, 2004. CIMNE.<br />
(7) S. Stolz, P. Schlatter, D. <strong>Meyer</strong>, and L. Kleiser, Highpass<br />
filtered eddy-vi<strong>sc</strong>osity models for LES, in Direct<br />
and Large-Eddy Simulation, V, R. Friedrich, et al.,<br />
Editors. Kluwer: Dordrecht, The Netherlands, 2004.<br />
(8) D. W. <strong>Meyer</strong> and P. Jenny, A Mixing Model Providing<br />
Statistics of the Conditional Scalar Dissipation Rate.<br />
In Proceedings of the 2007 GAMM Annual Meeting,<br />
Zürich, Switzerland, 2007. Wiley.<br />
(9) D. W. <strong>Meyer</strong> and P. Jenny, Parameterized Scalar Profile<br />
Mixing Model for Turbulent Combustion Simulations.<br />
In Proceedings of the 2006 GAMM Annual<br />
Meeting, Berlin, Germany, 2006. Wiley.<br />
(10) D. W. <strong>Meyer</strong> and P. Jenny, Mixing Model Based on<br />
Parameterized Scalar Profiles. In Proceedings of the<br />
2005 GAMM Annual Meeting, Luxembourg, 2005.<br />
Wiley.<br />
(11) D. W. <strong>Meyer</strong> and P. Jenny, Conservative Velocity Interpolation<br />
for PDF Methods. In Proceedings of the<br />
2004 GAMM Annual Meeting, <strong>Dr</strong>esden, Germany,<br />
2004. Wiley.<br />
(12) T. Staubli and D. W. <strong>Meyer</strong>, <strong>Dr</strong>aft Tube Calculations.<br />
In Proceedings of the ERCOFTAC/IAHR Workshop<br />
on <strong>Dr</strong>aft Tube Flow, Porjus, Sweden, 1999.<br />
(1) D. W. <strong>Meyer</strong>-Massetti, On the Modeling of Molecular<br />
Mixing in Turbulent Flows. Doctoral thesis, <strong>ETH</strong> Zurich,<br />
2008.<br />
CV <strong>Daniel</strong> W. <strong>Meyer</strong> — page 4 of 6
REPORTS<br />
REFEREE SERVICES &<br />
COMMITTEE WORK<br />
THESES SUPERVISED<br />
(2) D. W. <strong>Meyer</strong>, Large-Eddy Simulation of Transitional<br />
Turbulent Channel Flow with Filtered Eddy Vi<strong>sc</strong>osity<br />
Model. Diploma thesis, Institute of Fluid Dynamics,<br />
<strong>ETH</strong> Zurich, 2003, in german.<br />
(3) D. W. <strong>Meyer</strong>, Two-Way Coupling in Particle Suspensions.<br />
Semester thesis, Institute of Fluid Dynamics,<br />
<strong>ETH</strong> Zurich, 2002.<br />
(4) D. W. <strong>Meyer</strong>, Indirect Measurement of Turbine Blade<br />
Boundary Layer Heat Transfer Coefficient. Semester<br />
thesis, Laboratorium für Strömungsma<strong>sc</strong>hinen, <strong>ETH</strong><br />
Zurich, 2001.<br />
(5) D. W. <strong>Meyer</strong>, Influence of the Expansion Valve on the<br />
Operating Condition of an Ammonia Cooling Plant.<br />
Diploma thesis, Hoch<strong>sc</strong>hule Technik+Architektur,<br />
1998, in german.<br />
(6) D. W. <strong>Meyer</strong>, Small Ventilators with High Efficiency.<br />
Semester thesis, Hoch<strong>sc</strong>hule Technik+Architektur,<br />
1998, in german.<br />
(7) D. W. <strong>Meyer</strong>, Eulerian Joint Velocity–Saturation PDF<br />
Transport Equation for Two-Phase Flow. Department<br />
of Energy Resources Engineering, Stanford University,<br />
Stanford CA, USA, 2010.<br />
(8) D. W. <strong>Meyer</strong>, Modeling Transport in Porous Media<br />
with Stochastic Processes. Department of Energy Resources<br />
Engineering, Stanford University, Stanford<br />
CA, USA, 2008.<br />
(9) D. <strong>Meyer</strong>-Massetti, Theoretical Foundation and Algorithmic<br />
Concepts of the Streamline Curvature<br />
Method. Internal report, MAN TURBO Ltd., 2007.<br />
2012 Referee, Advances in Water Resources<br />
2011 Referee, Physical Review Letters<br />
2011 Examiner, Hoch<strong>sc</strong>hule Technik+Architektur, Lucerne,<br />
Switzerland<br />
2010–2012 Referee, Combustion and Flame<br />
2007 Referee, Journal of Computational Physics<br />
(1) Adrien Lücker, Implementation of a Consistent Particle<br />
Transport Scheme for a Hybrid RANS/PDF<br />
Method. Semester thesis, CSE, <strong>ETH</strong> Zurich, 2011.<br />
(2) Sandro Mani, Simulating Turbulence Modulation<br />
with RANS and PDF Methods. Seminar project, CSE,<br />
<strong>ETH</strong> Zurich, 2011.<br />
(3) Rajdeep Deb, Modeling Molecular Mixing in Spatially<br />
Inhomogeneous Turbulent Flows. Master thesis,<br />
CSE, <strong>ETH</strong> Zurich, 2011.<br />
CV <strong>Daniel</strong> W. <strong>Meyer</strong> — page 5 of 6
(4) Tarun Chadha, Modeling Turbulence Modification in<br />
Decaying Grid Turbulence with Gravity. Master thesis,<br />
MAVT, <strong>ETH</strong> Zurich, 2011.<br />
(5) Roman Fuchs, Modeling Turbulence Modulation in<br />
Homogeneous Isotropic Turbulence. Semester thesis,<br />
CSE, <strong>ETH</strong> Zurich, 2010.<br />
CV <strong>Daniel</strong> W. <strong>Meyer</strong> — page 6 of 6