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Dietmar Rempfer Director, School of Engineering Purdue University Northwest
Academic Background
1995 Habilitation Universität Stuttgart Institut für Aerodynamik und Gasdynamik (Department of Aerodynamics and Gas Dynamics) Area of Specialization: Fluid Mechanics
1991 Dr.-Ing. (Ph. D.) Universität Stuttgart Institut A für Mechanik (Department of Theoretical and Applied Mechanics) Area of Specialization: Mechanical Engineering
1988 Dipl.-Ing. (M. S.) Universität Stuttgart Institut für Raumfahrtsysteme (Department of Space Systems) Area of Specialization: Aerospace Engineering
Professional History
Administrative and Leadership Positions
2017–present Director, School of Engineering, Purdue University Northwest
2015–2016 Interim Chair, Department of Mechanical, Materials and Aerospace Engineering, Illinois Institute of Technology
2015–2016 Campus Lead, Pathways to Innovation Program, National Center for Engineering Pathways to Innovation, National Science Foundation
2012–2015 Associate Dean, Armour College of Engineering, Illinois Institute of Technology
2012–2015 Chair, Academic and Business Programs, Ed Kaplan Family Institute for Innovation and Tech Entrepreneurship, Illinois Institute of Technology
2009–2011 Chair, Financial Affairs Committee, University Faculty Council, Illinois Institute of Technology
CV – D. Rempfer, November 2019 II
Academic Appointments
2017–present Professor of Mechanical Engineering, Department of Mechanical and Civil Engineering, Purdue University Northwest
2012–2017 Professor of Mechanical & Aerospace Engineering, Department of Mechanical, Materials and Aerospace Engineering, Illinois Institute of Technology
2012–2017 Professor of Applied Mathematics, Department of Applied Mathematics, Illinois Institute of Technology
2004–2012 Associate Professor of Applied Mathematics, Department of Applied Mathematics, Illinois Institute of Technology
2001–2012 Associate Professor of Mechanical & Aerospace Engineering, Department of Mechanical, Materials and Aerospace Engineering, Illinois Institute of Technology
1996–2001 Visiting Associate Professor, Sibley School of Mechanical and Aerospace Engineering, Cornell University
1993–1996 Research Scientist, Institut für Aerodynamik und Gasdynamik, Universität Stuttgart
1992–1993 Postdoctoral Fellow, Department of Aerospace and Mechanical Engineering, University of Arizona
1990–1992 Research Assistant, Institut für Aerodynamik und Gasdynamik, Universität Stuttgart
1988–1989 Research Assistant, Institut A für Mechanik, Universität Stuttgart
1987–1988 Consulting in simulation and software engineering, Dornier-System GmbH, Immenstaad
CV – D. Rempfer, November 2019 III
Administrative Service
University Level
2014–2015 Member, design committee for Kaplan Institute building ($45M-project, design architect John Ronan)
2014 Member, President Selection Committee
2013–2017 Member, steering committee for the development of next-generation institutional analytics (academic unit productivity assessment)
2013–2017 University liaison to building programming firm (Shepley & Bulfinch) for Kaplan Institute building
2012–2017 Chair, academic and business programming committee, Ed Kaplan Family Institute for Innovation and Tech Entrepreneurship
2009–2011 Chair, Financial Affairs committee, University Faculty Council; preparation, presentation and publication of university-wide financial report
College Level
2014–2015 College-side supervision of Rettaliata Center renovation project ($15M-project, design architect Dirk Lohan)
2013–2014 Coordination and support 2014 ABET accreditation
2012–2015 Programming and design (with Armour College Dean) of John T. Rettaliata Engineering Center renovation
2012–2015 Coordination and support (with Armour College Dean) for Armour College research administration and policies, and departmental research strategic planning
2012–2015 Faculty load assessment and planning
2012–2015 Planning and analysis (with Armour College Dean) of teaching assistant and adjunct support for departments
2012–2015 Space usage assessment and planning
2012–2015 Planning, next-generation Armour College computational facilities
CV – D. Rempfer, November 2019 IV
Honors & Academic Achievements
Honors
1996–2000 Heisenberg Fellowship, DFG (German National Science Foundation)
1992 Hermann-Reissner-Award for Aerospace Engineering
1991 Summa Cum Laude (mit Auszeichnung) for Dr.-Ing., Universität Stuttgart
1989–1991 Fellowship, Ph. D.-program of Studienstiftung des deutschen Volkes
1988 Honors (mit Auszeichnung bestanden) for Dipl.-Ing., Universität Stuttgart
1986–1988 Fellowship, Studienstiftung des deutschen Volkes
Areas of Research Specialization
• Aerodynamics & Fluid Dynamics
• Boundary Layer Stability and Transition to Turbulence
• Turbulence Theory
• Dynamical Systems Theory
• Function-Space Methods for the Numerical Solution of PDEs
Courses Taught Undergraduate Graduate
• Aerodynamics
• Combustion Engines
• Computational Mechanics I & II
• Design of Aerospace Vehicles
• Fluid Dynamics
• Statics
• Thermodynamics
• Analysis of Turbulent Flow
• Dynamics of Viscous Incompressible Flow
• Stability of Viscous Flows
• Spectral Methods in CFD
Summary of Academic Achievements (see Appendix for complete list)
• 28 invited lectures
• 1,500+ citations
• 4 book chapters
• 40 refereed journal and conference publications
• 50+ conference contributions and lectures
• $11+M generated in federally funded research
• $2.8M received in federal funding as PI
Appendix CV – D. Rempfer, November 2019
1
Select Accomplishments in Administration and Leadership
Director, School of Engineering, Purdue University Northwest
• United two preexisting departments into one organizational structure and developed a vision for an expanded role of engineering at the university that has full faculty support.
• Hired five new faculty members and two new department chairs.
• Departments in the School of Engineering are on track to more than double their research expenditures compared to the year before the establishment of the school.
• In the process of raising at least $3M for a new design studio—the first of its kind at the university—and on track with having acquired two thirds of these funds by the end of this past spring. Construction for the new spaces and facilities will begin in March of 2020.
• Established an external advisory board for the school, with a membership that includes leaders in the academic and professional communities at regional and national levels.
• Oversaw ABET visit preparations for our programs, resulting in a full six-year accreditation with no concerns or weaknesses noted.
• Engineering programs ranked by US News at #52 in 2019, nationally among engineering programs at Universities offering Master’s degrees as their highest degree.
• Started an initiative to develop both student and faculty exchange programs with partner universities in Latin America supporting a university initiative to become a Hispanic-Serving Institution (HSI). The initiative is off to a successful start with visiting faculty from Argentina’s Universidad Tecnológica Nacional joining us this fall.
• Initiated the School of Engineering Distinguished Speaker Series, attracting national and international leaders from academia and industry.
• Added a Web and Communications Specialist to my staff, currently interviewing candidates for the new position of an Industry Relations Manager.
• Developed documents defining the role and responsibilities of department chairs and departmental committees, teaching load and faculty evaluation guidelines, and policies and procedures for department head and faculty searches.
• Initiated four new combined BS/MS programs.
• Developed a novel “Faculty Internship” program which provides funding for faculty to spend time working at locations of industry or community partners and agencies. The program supports practical engineering endeavors, helps strengthen our ties with the region and its industrial, professional and civic communities, and helps our faculty stay current with developments in industry and manufacturing so they can bring their experiences back to the classroom.
• Active member of ASEE’s Engineering Deans Council (EDC) and member of its Public Policy Committee (PPC). Member of the Global Engineering Deans Council (GEDC).
CV – Appendix – D. Rempfer, November 2019 2
Associate Dean, Armour College, Illinois Institute of Technology
• Engaged in recruiting and hiring of a total of two department chairs and more than a half dozen new tenure-track faculty.
• Developed a comprehensive inventory of the college’s spaces and their utilization as chair of the college’s space planning committee. This document has enabled identification of opportunities for improved efficiency and faculty collaboration. As a result, the college was able to provide better spaces to serve increased research needs and attract new faculty with exciting facilities for their experimental work.
• Responsible for coordination and planning of Armour College’s next-generation computational facilities as chair of the college’s academic computing committee, to enable improved support for both its research and teaching enterprise.
• Oversaw the process of ABET accreditation of Armour College undergraduate programs in preparation for an ABET visit in 2014. All 13 of Armour’s undergraduate programs received a full, six-year accreditation in 2015.
• Oversight of the $15M Rettaliata Center renovation project. Coordinated and chaired meetings with project directors, construction managers and architects, as well as faculty and students. The project completed on time and on budget, adding substantial new facilities and transforming the largest academic building in the college.
• Leadership role in the academic and business programming process for IIT’s new Kaplan Institute, reporting directly to IIT’s President and Provost. The physical facility has now opened as a $45M, 65,000 ft2 building which will function as a resource that encourages human encounters and creative thinking as an integral part of IIT’s engineering education and STEM-related programs.
Interim Department Chair, MMAE Department, Illinois Institute of Technology
• Developed new teaching load and faculty evaluation policies, and chaired the departmental committee charged with creating a new set of guidelines for tenure and promotion. The documents were amended to give more purchase to innovation-related activities such as publication of patents, consistent with the institution’s overall focus of integrating ideas of entrepreneurship and innovation more tightly into the department’s academic mission.
• Developed a systematic approach to gender diversity in the department, including regular events and meetings with female students and development of new communication channels for both students and faculty.
• Two new faculty members in IIT’s MMAE department were awarded NSF CAREER awards under my mentorship.
CV – Appendix – D. Rempfer, November 2019 3
Invited Presentations
Symposium in Honor of John Lumley’s Legacy, 46th AIAA Fluid Dynamics Conference, June
15, 2016, Washington, D.C.: Rational Control of Turbulent Boundary Layers— John
Lumley’s Legacy
Mechanical and Aerospace Engineering Seminar, March 24, 2011, Arizona State
University, Tempe, AZ: Fluid Mechanics in an Urban Setting — New Tools, and Applications
Environmental Fluid Dynamics Seminar, October 12, 2010, University of Notre Dame,
South Bend, IN: Development of New Tools for Urban Fluid Mechanics
ME Graduate Seminar, October 2, 2008, University of Iowa, Iowa City, IA: Observations
Regarding Some Alternative Formulations for Incompressible Stokes and Navier-Stokes
Problems
Workshop on Industrial Applications of Low-Order Models Based on Proper Orthogonal
Decomposition (POD), March 31–April 02, 2008, Bordeaux, France: Prediction of Complex
Flows
ASME Fluids Engineering Summer Conference, June 19–23, 2005, Houston, TX: POD-
Galerkin Models of Open Shear Flows: What can we expect of them?
SIAM Conference on Applications of Dynamical Systems, May 20–26, 2005, Snowbird, UT:
POD-Galerkin Models of Open Shear Flows: What can we expect of them?
Invited Lecture, Department of Mechanical Engineering, Ohio State University,
December 17, 2004: POD-Galerkin Models for Open Shear Flows
Seminar at Hermann-Föttinger-Institut, Berlin, Germany, May 16, 2003: POD-Galerkin
Modellierung offener Scherströmungen: Chancen und Herausforderungen (“POD-Galerkin
Modeling of Open Shear Flows: Opportunities and Challenges”)
Monte Verità Symposium on Sedimentation and Sediment Transport, September 01–06,
2002, Ascona, TI, Italy: Interaction of Turbulence with Compliant Surfaces
6th AIAA/CEAS Aeroacoustics Conference, Lahaina, Maui, Hawaii, June 12–14, 2000:
Keynote Lecture Low-Dimensional Models for Near-Wall Turbulent Flow: Applications for
Active and Semi-Active Control
Fluid Mechanics and the Environment: Dynamical Approaches, August 23–24, 1999,
Cornell University: Interaction between Near-Wall Turbulent Flows and Compliant
Surfaces
CV – Appendix – D. Rempfer, November 2019 4
Thirteenth U.S. National Congress of Applied Mechanics, June 21–26, 1998, Gainesville,
Florida: On POD-Galerkin Models for Fluid Flow
Second Monte Verità Colloquium on Fundamental Problematic Issues in Turbulence,
March 22–28, 1998, Ascona, Switzerland: On Dynamical Systems Obtained via Galerkin
Projection onto Low-Dimensional Bases of Eigenfunctions
Fourth SIAM Conference on Applications of Dynamical Systems, May 18–22, 1997,
Snowbird, Utah: On Dynamical Systems Obtained via Galerkin Projection onto Bases of KL-
Eigenfunctions for Fluid Flows
Stability, Transition and Turbulence Seminar, Sibley School of Mechanical and Aerospace
Engineering, Cornell University, April 2, 1996, Ithaca, New York: Properties of Dynamical
Models Derived from POD Eigenfunctions for a Transitional Boundary Layer
Seminar, Center for Fluid Mechanics, Turbulence and Computation, Brown University,
September 7, 1995, Providence, Rhode Island: Investigations of Boundary-Layer Transition
using Empirical Eigenfunctions
Seminar, Department of Mechanical and Aerospace Engineering, Clarkson University,
September 4, 1995, Potsdam, New York: Investigations of Boundary-Layer Transition using
Empirical Eigenfunctions
Seminar, Department of Aerospace and Mechanical Engineering, Princeton University,
November 17, 1994, Princeton, New Jersey: Transition in a Flat-Plate Boundary Layer— A
Description from a Coherent Structures Point of View
Seminar, Sibley School of Aerospace and Mechanical Engineering, Cornell University,
November 16, 1994, Ithaca, New York: Transition in a Flat-Plate Boundary Layer— A
Description from a Coherent Structures Point of View
Turbulence Working Seminar, Department of Mathematics, University of Arizona, April 5,
1993, Tucson, Arizona: The Dynamics of Coherent Structures in a Flat- Plate Boundary
Layer
Aerospace & Mechanical Engineering Seminar, University of Arizona, February 4, 1993,
Tucson, Arizona: Dynamics of Coherent Structures
CV – Appendix – D. Rempfer, November 2019 5
Publications
Refereed Journal Publications
ASZTALOS, K, REMPFER, D. (2019)
Angle of Attack Optimization for Vertical-Axis Wind Turbines using Blade Element
Methods. Accepted for publication in Journal of Propulsion and Power
KOZAK, P.; REMPFER, D. (2016)
Modeling Vertical-Axis Wind Turbine Performance: Blade Element Method vs. Finite
Volume Approach. Journal of Propulsion and Power 32 (3), pp. 592–601
ZHOU, T., REMPFER, D. (2012)
Numerical study of detailed flow field and performance of Savonius wind turbines.
Renewable Energy 51, pp. 373–381
NGUYEN, T. D.; WELLS, J. C.; MOKHASI, P.; REMPFER, D. (2010)
Proper orthogonal decomposition-based estimations of the flow field from particle image
velocimetry wall-gradient measurements in the backward-facing step flow. Measurement
Science and Technology 21, 115406.
MOKHASI, P.; REMPFER, D. (2010)
Nonlinear System Identification Using Radial Basis Functions. International Journal of
Numerical Methods in Fluids 63 (10), pp. 121–162.
ASEN, P.-O.; KREISS, G.; REMPFER, D. (2010)
Direct numerical simulations of localized disturbances in pipe Poiseuille flow.
Computers & Fluids 39 6, pp. 926–935.
BOCKENFELD, D.; CHEN, H; KAMINSKI, M. D.; ROSENGART, A. J.; REMPFER, D. (2010)
A Parametric Study of a Portable Magnetic Separator for Separation of Nanospheres from
Circulatory System. Separation Science and Technology 45 (3), pp. 355–363.
MOKHASI, P.; REMPFER, D. (2009)
Sequential Estimation of Velocity Fields Using Episodic POD. Physica D 237 (24), pp. 3197-
3213.
MOKHASI, P.; REMPFER, D. (2009)
Predictive Flow-Field Estimation. Physica D 238, pp. 290–308.
SPASOV, M.; REMPFER, D.; MOKHASI, P. (2008)
Simulation of a turbulent channel flow with an entropic lattice Boltzmann method.
International Journal of Numerical Methods in Fluids 60 (11), pp. 1241–1258.
REMPFER, D. (2008)
Two Remarks on a paper by Sani et al. International Journal of Numerical Methods in
Fluids 56 (10), pp. 1961–1965.
CV – Appendix – D. Rempfer, November 2019 6
CHEN, H.; BOCKENFELD, D.; REMPFER, D.; KAMINSKI, M. D.; ROSENGART, A. J. (2007)
Three-dimensional modeling of a portable medical device for magnetic separation of
particles from biological fluids. Physics in Medicine and Biology 52, pp. 5205–5218.
CHEN, H.; BOCKENFELD, D.; REMPFER, D.; RITTER, J. A.; KAMINSKI, M. D.; LIUA, X.; ROSENGART, A. J.
(2007)
A comprehensive in vitro investigation of a portable magnetic separator device for
human blood detoxification. Physics in Medicine and Biology 52, pp. 6053-6072.
CHEN, H.; BOCKENFELD, D.; REMPFER, D.; KAMINSKI, M. D.; LIUA, X.; ROSENGART, A. J. (2007)
Preliminary 3-D analysis of a high gradient magnetic separator for biomedical
applications. Journal of Magnetism and Magnetic Materials 320 (3-4), pp. 279–284.
JOSHI, V.; REMPFER, D. (2007)
Energy Analysis of Turbulent Channel Flow Using Bi-Orthogonal Wavelets.
Phys. Fluids 19 (8), 085106-12.
REMPFER, D. (2006) On Boundary Conditions for Incompressible Navier-Stokes and Related Problems. Appl. Mech. Rev. 59, pp. 107–125.
JUTTIJUDATA, V.; REMPFER D.; LUMLEY, J. L. (2005) Proper Orthogonal Decomposition in Squire’s Coordinate System for Low-Dimensional Models of Channel Turbulence. J. Fluid Mech. 534, pp. 195–225.
REUTER, J.; REMPFER, D. (2004)
Analysis of Pipe Flow Transition. Part II. Energy Transfer. Theor. Comp. Fluid Dyn. 19,
pp. 39–64.
MOKHASI, P.; REMPFER, D. (2004)
Optimized sensor placement for urban flow measurement. Phys. Fluids 16 (5), pp. 1758–
1764.
FOGLEMAN, M.; REMPFER, D.; LUMLEY, J. L. (2004)
Application of the Proper Orthogonal Decomposition to Datasets of Internal Combustion
Engine Flow. Journal of Turbulence 5, pp. 1–18.
REUTER, J.; REMPFER, D. (2004)
Analysis of Pipe Flow Transition. Part I. Direct Numerical Simulation. Theor. Comp. Fluid
Dyn. 17 (4), pp. 273–292.
XU, S.; REMPFER, D; LUMLEY, J. L. (2003)
Turbulence over a Compliant Surface: Numerical Simulation and Analysis. J. Fluid Mech.
478, pp. 11–34.
CV – Appendix – D. Rempfer, November 2019 7
REMPFER, D. (2003)
Low-Dimensional Modeling and Numerical Simulation of Transition in Simple Shear Flows.
Annu. Rev. Fluid Mech. 35, pp. 229–265 (Invited contribution).
ALBUKREK, C.; URBAN, K.; REMPFER, D.; LUMLEY, J. (2002)
Divergence-Free Wavelet Analysis of Turbulent Flow. J. Sci. Comput. 17 (1), pp. 49–66.
BHAGANAGAR, K., REMPFER, D., LUMLEY, J. L. (2002)
Direct Numerical Simulation of Spatial Transition to Turbulence using Fourth-Order
Vertical Velocity Second-Order Vertical Vorticity Formulation.
J. Comput. Phys. 180, pp. 200–228.
REMPFER, D. (2000)
On Low-Dimensional Galerkin Models for Fluid Flow. Theor. Comput. Fluid Dynamics 14
(2), pp. 75–88.
REMPFER, D. (1996)
A dynamical-systems approach to laminar-turbulent transition in a flat-plate boundary
layer. Z. Angew. Math. Mech. 76, suppl., (5), pp. 419-420.
REMPFER, D. (1996)
Investigations of Boundary-Layer Transition via Galerkin Projections on Empirical
Eigenfunctions. Phys. Fluids 8 (1), pp. 175–188.
REMPFER, D. (1994)
On the Structure of Dynamical Systems Describing the Evolution of Coherent Structures
in a Convective Boundary Layer. Phys. Fluids 6 (3), pp. 1402–1404.
REMPFER, D.; FASEL, H. (1994)
Dynamics of Three-Dimensional Coherent Structures in a Flat-Plate Boundary Layer. J.
Fluid Mech. 275, pp. 257–283.
REMPFER, D.; FASEL, H. (1994)
Evolution of Three-Dimensional Coherent Structures in a Flat-Plate Boundary Layer. J.
Fluid Mech. 260, pp. 351–375.
CV – Appendix – D. Rempfer, November 2019 8
Chapters in Books
REMPFER, D., PARSONS, L.; XU, S. & LUMLEY, J. (2003)
Turbulent Boundary Layers over Compliant Walls: Low-Dimensional Models and Direct
Simulations. In: Sedimentation and Sediment Transport. (Eds. A. Gyr & W. Kinzelbach),
Amsterdam: Kluwer, pp. 43–50.
REMPFER, D., PARSONS, L.; XU, S. & LUMLEY, J. (2003)
Theoretical Approaches to the Effect of Wall Compliance on Turbulent Flow. In: Flow in
Collapsible Tubes and Past Other Highly Compliant Boundaries. (Eds. P.W. Carpenter & T.
J. Pedley), Amsterdam: Kluwer, pp. 10.1–10.21.
REMPFER, D. (1999)
On Dynamical Systems Obtained via Galerkin Projection onto Low-Dimensional Bases of
Eigenfunctions. In: Fundamental Problematic Issues in Turbulence Research. (Eds. A. Gyr,
W. Kinzelbach & A. Tsinober), Basel: Birkhäuser, pp. 233– 245.
REMPFER, D. (1998)
Dynamical Structures in Open Fluid Systems. In: Evolution of Spontaneous Structures in
Dissipative Continuous Systems. (Eds. F. H. Busse, S. C. Müller), Springer, 1998.
Refereed Conference Publications
FOGLEMAN, M.; REMPFER, D.; LUMLEY, J.; HAWORTH, D. (2002)
POD Analysis of In-Cylinder Flows. Proceedings of 2002 ASME Fluids Engineering. Summer
Meeting, July 14-18, 2002, Montreal, Quebec, Canada.
BHAGANAGAR, K.; REMPFER, D.; LUMLEY, J. (2001)
Mechanisms for Spatial Transition to Turbulence in a Boundary Layer.
AIAA Paper 2001-2701.
REMPFER, D. (1995)
A Quantitative Comparison of Coherent Structures in Flat-Plate Boundary Layers with and
without Pressure Gradient. Proceedings of 10th Symposium on Turbulent Shear Flows,
August 14–16, 1995, University Park, Pennsylvania.
REMPFER, D. (1995)
Properties of Dynamical Systems Describing the Evolution of Coherent Structures in a
Transitional Boundary Layer. In: Advances in Turbulence V (ed. F. Benzi), Kluwer,
Dordrecht, pp. 435–439.
REMPFER, D.; KLOKER, M.; STOLL, P.; BESTEK, H.; WAGNER, S. (1994)
Evolution of Coherent Structures in Flat-Plate Boundary Layers with and without Pressure
Gradient. In: Computational Fluid Dynamics ’94 (Eds. S. Wagner, J. Périaux, E. H. Hirschel),
Wiley, Chichester, pp. 478–486.
CV – Appendix – D. Rempfer, November 2019 9
REMPFER, D. (1993)
Low-Dimensional Models of a Flat-Plate Boundary Layer. In: Near-Wall Turbulent Flows
(Eds. R. M. C. So, C. G. Speziale, B. E. Launder), pp. 63–72, Elsevier, New York.
REMPFER, D., FASEL, H. (1993)
The Dynamics of Coherent Structures in a Flat-Plate Boundary Layer.
In: Advances in Turbulence IV (ed. F. T. M. Nieuwstadt), pp. 73–77, Kluwer, Dordrecht.
REMPFER, D.; FASEL, H. (1991)
Evolution of Coherent Structures During Transition in a Flat-Plate Boundary Layer.
Proceedings of 8th Symposium on Turbulent Shear Flows, September 9–11, 1991,
München.
REMPFER, D.; AUWETER-KURTZ, M.; KAEPPELER, H. J. (1988)
Investigation of Instabilities in MPD-Thruster Flows Using a Linear Dispersion Relation.
Proceedings of 20th International Electric Propulsion Conference, October 3–6, 1988,
Garmisch-Partenkirchen. IEPC-88-043.
Conference Abstracts
REMPFER, D.; KOZAK, P. (2013)
Performance Optimization and Analysis of Variable-Pitch Vertical-Axis Wind Turbines. 66th
Annual Meeting of the American Physical Society, Division of Fluid Mechanics, November
24–26, 2013, Pittsburgh, Pennsylvania. Bull. Amer. Phys. Soc. 58 (18), p. 62.
KANDALA, S.; REMPFER, D.; MONNIER, B; WARK, C. (2012)
Numerical Simulations of the Urban-Type Boundary Layer Experiment.
65th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 18–20, 2012, San Diego, California. Bull. Amer. Phys. Soc. 57 (18), p. 73.
GOYAL, U.; REMPFER, D. (2011)
Panel Method for the Wake Effects on the Aerodynamics of Vertical-Axis Wind Turbines.
64th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 20–22, 2011, Baltimore, Maryland. Bull. Amer. Phys. Soc. 56 (18), p. 62.
KANDALA, S.; REMPFER, D. (2011)
Spectral-Element Simulations of Unsteady Flow over a 3D, Low Aspect-Ratio Wing. 64th
Annual Meeting of the American Physical Society, Division of Fluid Mechanics, November
20–22, 2011, Baltimore, Maryland. Bull. Amer. Phys. Soc. 56 (18), p. 73.
ZHOU, T.; REMPFER, D. (2011)
Numerical Study for Detailed Flow Fields and Performance of the Savonius-Type Rotor.
64th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 20–22, 2011, Baltimore, Maryland. Bull. Amer. Phys. Soc. 56 (18), p. 128.
CV – Appendix – D. Rempfer, November 2019 10
KANDALA, S.; REMPFER, D. (2010)
Large-Eddy Simulation of Flow over Surface-Mounted Cube Using a Spectral Element
Method. 63rd Annual Meeting of the American Physical Society, Division of Fluid
Mechanics, November 21–23, 2010, Long Beach, California. Bull. Amer. Phys. Soc. 55 (16),
p. 34.
MOKHASI, P.; REMPFER, D. (2009)
Towards a Fully Adaptive Mesh-Free Method for Solving Viscous Incompressible Flows.
62nd Annual Meeting of the American Physical Society, Division of Fluid. Mechanics,
November 22–24, 2009, Minneapolis, Minnesota. Bull. Amer. Phys. Soc. 54 (19), p. 39.
MONNIER, B.; MOKHASI, P.; REMPFER, D.; WARK, C. (2009)
Remote Flow sensing of Complex Systems: Steps towards Spatio-Temporal Prediction of
Flow Patterns. 62nd Annual Meeting of the American Physical Society, Division of Fluid
Mechanics, November 22–24, 2009, Minneapolis, Minnesota. Bull. Amer. Phys. Soc. 54
(19), p. 51.
REMPFER, D.; MOKHASI, P. (2009)
A Correlation Matrix Approach to Estimating Velocity Fields Using Sensor Measurements.
62nd Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 22–24, 2009, Minneapolis, Minnesota. Bull. Amer. Phys. Soc. 54 (19), p. 303.
KANDALA, S.; REMPFER, D. (2009)
Numerical Simulation of Flow over a Savonius Wind Turbine Using a Spectral Element
Method. 62nd Annual Meeting of the American Physical Society, Division of Fluid
Mechanics, November 22–24, 2009, Minneapolis, Minnesota. Bull. Amer. Phys. Soc. 54
(19), p. 306.
KANDALA, S.; REMPFER, D.; WARK, C.; FISCHER, P. (2008)
Large-Eddy Simulation of an Urban-Type Boundary Layer. 61st Annual Meeting of the
American Physical Society, Division of Fluid Mechanics, November 23–25, 2008, San
Antonio, Texas. Bull. Amer. Phys. Soc. 52 (17), p. 22.
MONNIER, B.; NEISWANDER, B.; WARK, C.; REMPFER, D. (2008)
Simultaneous Pressure and Stereoscopic PIV Measurements of the Flow around a Wall-
Mounted Cube in an Urban-Type Boundary Layer. 61st Annual Meeting of the American
Physical Society, Division of Fluid Mechanics, November 23–25, 2008, San Antonio, Texas.
Bull. Amer. Phys. Soc. 52 (17), p. 92.
MOKHASI, P.; REMPFER, D. (2008)
Sequential Approximation of Velocity Fields using Episodic POD. 61st Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 23–25, 2008, San
Antonio, Texas. Bull. Amer. Phys. Soc. 52 (17), p. 101.
CV – Appendix – D. Rempfer, November 2019 11
MOKHASI, P.; REMPFER, D. (2008)
Radial Basis Function Approach to Modeling Dynamical Systems. 61st Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 23–25, 2008, San
Antonio, Texas. Bull. Amer. Phys. Soc. 52 (17), p. 101.
MOKHASI, P.; REMPFER, D. (2007)
Robust Real-Time Solutions of Velocity Fields from Predictive Estimation. 60th Annual
Meeting of the American Physical Society, Division of Fluid Mechanics, November 18–20,
2007, Salt Lake City, Utah. Bull. Amer. Phys. Soc. 52 (17), p. 89.
MONNIER, B.; NEISWANDER, B.; WARK, C.; REMPFER, D. (2007)
Stereoscopic PIV Measurements in an Urban-Type Boundary Layer. 60th Annual Meeting
of the American Physical Society, Division of Fluid Mechanics, November 18–20, 2007,
Salt Lake City, Utah. Bull. Amer. Phys. Soc. 52 (17), p. 131.
KANDALA, S.; REMPFER, D.; WARK, C.; FISCHER, P. (2007)
Large-Eddy Simulation of an Urban-Type Boundary Layer. 60th Annual Meeting of the
American Physical Society, Division of Fluid Mechanics, November 18–20, 2007, Salt Lake
City, Utah. Bull. Amer. Phys. Soc. 52 (17), p. 131.
SPASOV, M.; REMPFER, D. (2007)
Parallel Simulations of Turbulent Channel Flow Using Regular and Entropic Lattice
Boltzmann Schemes. 60th Annual Meeting of the American Physical Society, Division of
Fluid Mechanics, November 18–20, 2007, Salt Lake City, Utah. Bull. Amer. Phys. Soc. 52
(17), p. 149.
MOKHASI, P.; REMPFER, D. (2006)
Evolution of Recurrent Coherent Structures in a Minimal Channel. 59th Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 19–21, 2006,
Tampa, Florida. Bull. Amer. Phys. Soc. 51 (9), p. 147.
REMPFER, D.; MOKHASI, P. (2006)
Dynamics of Episodic POD. 59th Annual Meeting of the American Physical Society, Division
of Fluid Mechanics, November 19–21, 2006, Tampa, Florida. Bull. Amer. Phys. Soc. 51 (9),
p. 148.
SPASOV, M.; MOKHASI, P.; REMPFER, D. (2006)
Simulation of a three-dimensional backward-facing step flow using entropic LBM and LES.
59th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 19–21, 2006, Tampa, Florida. Bull. Amer. Phys. Soc. 51 (9), p. 265.
CV – Appendix – D. Rempfer, November 2019 12
BOCKENFELD, D.; CHEN, H.; REMPFER, D.; KAMINSKI, M.; ROSENGART, A. (2006)
Modeling High Gradient Magnetic Separation in Biological Fluids. 59th Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 19–21, 2006,
Tampa, Florida. Bull. Amer. Phys. Soc. 51 (9), p. 86.
MOKHASI, P.; REMPFER, D. (2005)
Predictive Flow-Field Estimation for Atmospheric Dispersion Problems. 58th Annual
Meeting of the American Physical Society, Division of Fluid Mechanics, November 20–22,
2005, Chicago, Illinois. Bull. Amer. Phys. Soc. 50 (9), p. 147.
JOSHI, V.; REMPFER, D. (2005)
Energy Analysis of Turbulent Flow Using Bi-Orthogonal Wavelets. 58th Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 20–22, 2005,
Chicago, Illinois. Bull. Amer. Phys. Soc. 50 (9), p. 233.
GIBSON, J.; REMPFER, D., LUMLEY, J. L. (2005)
Quantitative Assessment of Low-Dimensional POD-ODE Models of Wall-Bounded Flows.
58th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 20–22, 2005, Chicago, Illinois. Bull. Amer. Phys. Soc. 50 (9), p. 264.
FOGLEMAN, M.; LUMLEY, J.; HAWORTH, D.; REMPFER, D. (2004)
Development of a Low-Dimensional Model of IC Engine Flows. 57th Annual Meeting of the
American Physical Society, Division of Fluid Mechanics, November 21–23, 2004, Seattle,
Washington. Bull. Amer. Phys. Soc. 49 (9), p. 112.
JOSHI, V.; REMPFER, D. (2004)
Wavelet Representation of Energy Transfer in Turbulent Channel Flow. 57th Annual
Meeting of the American Physical Society, Division of Fluid Mechanics, November 21–23,
2004, Seattle, Washington. Bull. Amer. Phys. Soc. 49 (9), p. 76.
MOKHASI, P.; REMPFER, D. (2004)
Optimized Simulation of Contaminant Dispersion in Urban Flows. 57th Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 21–23, 2004,
Seattle, Washington. Bull. Amer. Phys. Soc. 49 (9), p. 48.
MOKHASI, P.; REMPFER, D. (2003)
Optimized Sensor Placement for Urban Flow Measurements. 56th Annual Meeting of the
American Physical Society, Division of Fluid Mechanics, November 23–25, 2003, East
Rutherford, New Jersey. Bull. Amer. Phys. Soc. 48 (10), p. 143.
MUNSON, M.; REMPFER, D.; WILLIAMS, D.; ACHARYA, M. (2003)
Controlling Compressor Vane Flow Vectoring Angles at Transonic Speeds. 56th Annual
Meeting of the American Physical Society, Division of Fluid Mechanics, November 23–25,
2003, East Rutherford, New Jersey. Bull. Amer. Phys. Soc. 48 (10), p. 165.
CV – Appendix – D. Rempfer, November 2019 13
XU, S.; REMPFER, D.; LUMLEY, J. (2002)
Turbulence over a Compliant Surface: Numerical Simulation and Analysis. 55th Annual
Meeting of the American Physical Society, Division of Fluid Mechanics, November 24–26,
2002, Dallas, Texas. Bull. Amer. Phys. Soc. 47 (10), p. 52.
PARSONS, L.; REMPFER, D.; LUMLEY, J. (2002)
Low-Dimensional Model of the Interaction between Near-Wall Turbulence and a
Compliant Boundary. 55th Annual Meeting of the American Physical Society, Division of
Fluid Mechanics, November 24–26, 2002, Dallas, Texas. Bull. Amer. Phys. Soc. 47 (10),
p. 52.
FOGLEMAN, M.; REMPFER, D.; LUMLEY, J.; HAWORTH, D. (2002)
Analysis of Tumble Breakdown in IC Engines Using Phase-Invariant POD Modes. 55th
Annual Meeting of the American Physical Society, Division of Fluid Mechanics, November
24–26, 2002, Dallas, Texas. Bull. Amer. Phys. Soc. 47 (10), p. 87.
ALBUKREK, C.; REMPFER, D.; LUMLEY, J.; URBAN, K.; DAHMEN, W. (2001)
An Adapted Divergence-Free Wavelet Basis for the Simulation of Wall-Bounded Flows.
54th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 18–20, 2001, San Diego, California. Bull. Amer. Phys. Soc. 46 (10), p. 68.
BHAGANAGAR, K.; REMPFER, D.; LUMLEY, J. (2001)
Investigation of Vortex-Related Structures of Transition Using DNS of Spatial Transition to
Turbulence. 54th Annual Meeting of the American Physical Society, Division of Fluid
Mechanics, November 18–20, 2001, San Diego, California. Bull. Amer. Phys. Soc. 46 (10),
p. 104.
FOGLEMAN, M.; REMPFER, D.; LUMLEY, J. (2001)
POD Analysis of LES Data for an IC Engine. 54th Annual Meeting of the American Physical
Society, Division of Fluid Mechanics, November 18–20, 2001, San Diego, California. Bull.
Amer. Phys. Soc. 46 (10), p. 143.
JUTTIJUDATA, V.; REMPFER, D.; LUMLEY, J. (2001)
Development of Near-Wall SGS Model based on a Localized Low-Dimensional Approach.
54th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 18–20, 2001, San Diego, California. Bull. Amer. Phys. Soc. 46 (10), p. 161.
PARSONS, L.; REMPFER, D.; LUMLEY, J. (2001)
Low-Dimensional Model of the Interaction between Near-Wall Turbulence and a
Compliant Boundary. 54th Annual Meeting of the American Physical Society, Division of
Fluid Mechanics, November 18–20, 2001, San Diego, California. Bull. Amer. Phys. Soc. 46
(10), p. 185.
CV – Appendix – D. Rempfer, November 2019 14
BHAGANAGAR, K.; REMPFER, D.; LUMLEY, J. (2000)
DNS of Spatial Transition to Turbulence in a Boundary Layer. 53rd Annual Meeting of the
American Physical Society, Division of Fluid Mechanics, November 21–23, 2000,
Washington, D.C. Bull. Amer. Phys. Soc. 45 (9), p. 36.
GIBSON, J.; REMPFER, D.; LUMELY, J. (2000)
Boundary Conditions for Low-Dimensional Models of the Turbulent Boundary Layer.
53rd Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 21–23, 2000, Washington, D.C. Bull. Amer. Phys. Soc. 45 (9), p. 86.
PARSONS, L.; REMPFER, D.; LUMLEY, J. (2000)
Low-Dimensional Model of the Interaction of Near-Wall Turbulence with a Compliant
Boundary. 53rd Annual Meeting of the American Physical Society, Division of Fluid
Mechanics, November 21–23, 2000, Washington, D.C. Bull. Amer. Phys. Soc. 45 (9), p. 86.
JUTTIJUDATA, V.; REMPFER, D.; LUMLEY, J. (2000)
Development of a Localized Low-Dimensional Approach to Turbulence Simulation.
53rd Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 21–23, 2000, Washington, D.C. Bull. Amer. Phys. Soc. 45 (9), p. 86.
ALBUKREK, C.; REMPFER, D.; LUMLEY, J.; URBAN, K.; DAHMEN, W. (2000)
Divergence-Free Wavelet Analysis of Turbulent Flows. 53rd Annual Meeting of the
American Physical Society, Division of Fluid Mechanics, November 21–23, 2000,
Washington, D.C. Bull. Amer. Phys. Soc. 45 (9), p. 86.
REMPFER, D. (2000)
The Fable of the Wall-Normal Pressure-Gradient Boundary Condition – Or: Why
Münchausen was a Liar. 53rd Annual Meeting of the American Physical Society, Division of
Fluid Mechanics, November 21–23, 2000, Washington, D.C. Bull. Amer. Phys. Soc. 45 (9),
p. 86.
PARSONS, L.M.; BLOSSEY, P. N.; REMPFER, D.; LUMLEY, J. L. (1999)
Low-Dimensional Model of the Interaction of Near-Wall Turbulence with a Compliant
Boundary. 52nd Annual Meeting of the American Physical Society, Division of Fluid
Mechanics, November 21–23, 1999, New Orleans, Louisiana. Bull. Amer. Phys. Soc. 44 (8),
p. 21.
XU, S.; MOHD-YUSOF, J.; REMPFER, D.; LUMLEY, J. L. (1999)
Direct Numerical Simulation of the Interaction of Near-Wall Turbulence with a Compliant
Boundary. 52nd Annual Meeting of the American Physical Society, Division of Fluid
Mechanics, November 21–23, 1999, New Orleans, Louisiana. Bull. Amer. Phys. Soc. 44 (8),
p. 22.
CV – Appendix – D. Rempfer, November 2019 15
REMPFER, D. & REUTER, J. (1999)
On the Etiology of Longitudinal Vortices in Transitional Pipe Flow. 52nd Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 21–23, 1999, New
Orleans, Louisiana. Bull. Amer. Phys. Soc. 44 (8), p. 27.
JUTTIJUDATA, V.; BLOSSEY, P. N.; REMPFER, D.; LUMLEY, J. L. (1999)
Localized Low-Dimensional Approach to Near-Wall Modeling for DNS and LES. 52nd
Annual Meeting of the American Physical Society, Division of Fluid Mechanics, November
21–23, 1999, New Orleans, Louisiana. Bull. Amer. Phys. Soc. 44 (8), p. 153.
REUTER, J. & REMPFER, D. (1998)
Direct Numerical Simulation of Spatial Pipe Flow Transition Using a Hybrid Spectral/Finite-
Difference Scheme. 51st Annual Meeting of the American Physical Society, Division of
Fluid Mechanics, November 22–24, 1998, Philadelphia, Pennsylvania. Bull. Amer. Phys.
Soc. 43 (9), p. 2106.
REUTER, J. & REMPFER, D. (1997)
High-Order Vorticity-Velocity Method for the Simulation of Pipe Flow Transition. 50th
Annual Meeting of the American Physical Society, Division of Fluid Mechanics, November
23–25, 1997, San Francisco, California. Bull. Amer. Phys. Soc. 42 (11), p. 2203.
REMPFER, D. (1996)
On POD-based models for Complex Flows. 49th Annual Meeting of the American Physical
Society, Division of Fluid Mechanics, November 24–26, 1996, Syracuse, New York. Bull.
Amer. Phys. Soc. 41 (9), p. 1740.
REMPFER, D. (1995)
On the Structure of Energy-Transfer Processes during Boundary-Layer Transition. 48th
Annual Meeting of the American Physical Society, Division of Fluid Mechanics, November
19–21, 1995, Irvine, California. Bull. Amer. Phys. Soc. 40 (12), p. 1930.
REMPFER, D. (1994)
Evolution of Dynamical Models of a Flat-Plate Boundary Layer During Transition.
47th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 20–22, 1994, Atlanta, Georgia. Bull. Amer. Phys. Soc. 39 (9), p. 1930.
REMPFER, D., FASEL, H. (1992)
Dynamics of Coherent Structures in a Flat-Plate Boundary Layer. 45th Annual Meeting of
the American Physical Society, Division of Fluid Mechanics, November 22–24, 1992,
Tallahassee, Florida. Bull. Amer. Phys. Soc. 37 (8), p. 1787.
CV – Appendix – D. Rempfer, November 2019 16
Contributed Conference Presentations
66th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 24–26, 2013, Pittsburgh, Pennsylvania: Performance Optimization and
Analysis of Variable-Pitch Vertical-Axis Wind Turbines.
62nd Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 22–24, 2009, Minneapolis, Minnesota: A Correlation Matrix Approach to
Estimating Velocity Fields Using Sensor Measurements.
ME Graduate Seminar, University of Iowa, October 02, 2008, Iowa City, IA: Observations
Regarding Some Alternative Formulations for Incompressible Stokes and Navier-Stokes
Problems.
International Workshop on Industrial Applications of Low-Order Models Based on Proper
Orthogonal Decomposition, March 31, 2008, INRIA, Bordeaux, France: Prediction of
Complex Flows.
Midwest Numerical Analysis Day, June 23, 2007, Chicago, IL: Boundary Conditions for the
Incompressible Stokes and Navier-Stokes Problems — The Struggle Continues…
59th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 19–21, 2006, Tampa, Florida: Dynamics of Episodic POD.
COMSOL Conference 2006, October 22–24, 2006, Boston, MA: Modeling High- Gradient
Magnetic Separation from Biological Fluids.
Homeland Security Conference, April 27–28, 2006, Boston, MA: Optimal Solution of the
Direct and Inverse Problems of Contaminant Dispersion.
55th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 24–26, 2002, Dallas, Texas: Analysis of Tumble Breakdown in IC Engines Using
Phase-Invariant POD Modes.
54th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 18–20, 2001, San Diego, California: POD Analysis of LES Data for an IC Engine.
53rd Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 21–23, 2000, Washington, D.C.: Divergence-Free Wavelet Analysis of Turbulent
Flows.
53rd Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 21–23, 2000, Washington, D.C.: The Fable of the Wall-Normal Pressure-
Gradient Boundary Condition – Or: Why Münchausen was a Liar.
CV – Appendix – D. Rempfer, November 2019 17
52nd Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 21–23, 1999, New Orleans, Louisiana: On the Etiology of Longitudinal Vortices
in Transitional Pipe Flow.
AFOSR Contractor’s Meeting in Turbulence & Rotating Flows, August 18–19, 1999,
Albuquerque, New Mexico: Interaction between Near-Wall Turbulent Flows and
Compliant Surfaces.
AFOSR Turbulence and Internal Flows/Unsteady Aerodynamics and Hypersonics
Conference, August 18–20, 1998, Annapolis, Maryland: Structure and Control of the Wall
Region in a Turbulent Boundary Layer.
AFOSR Turbulence and Internal Flows/Unsteady Aerodynamics and Hypersonics
Conference, August 18–20, 1998, Annapolis, Maryland: Interaction between Near-Wall
Turbulent Flows and Compliant Surfaces.
49th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 24–26, 1996, Syracuse, New York: On POD-based models for Complex Flows.
48th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 19–21, 1994, Irvine, California: On the Structure of Energy Transfer Processes
During Boundary-Layer Transition.
10th Symposium on Turbulent Shear Flows, August 14–16, 1995, University Park,
Pennsylvania: A Quantitative Comparison of Coherent Structures in Flat-Plate Boundary
Layers with and without Pressure Gradient.
Third International Congress on Industrial and Applied Mathematics, July 3–7, 1995,
Hamburg: A Dynamical Systems Approach to Laminar-Turbulent Transition in a Flat-Plate
Boundary Layer.
47th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 20–22, 1994, Atlanta, Georgia: Evolution of Dynamical Models of a Flat-Plate
Boundary Layer During Transition.
Second European Computational Fluid Dynamics Conference, September 5–8, 1994,
Stuttgart, Germany: Evolution of Coherent Structures in Flat-Plate Boundary Layers with
and without Pressure Gradient.
Fifth European Turbulence Conference, July 5–8, 1994, Siena, Italy: Properties of
Dynamical Systems Describing the Evolution of Coherent Structures in a Transitional
Boundary Layer.
GAMM Jahrestagung 1994 at Technische Universität Braunschweig, April 4–8, 1994,
Braunschweig, Germany: Zur Entwicklung der Dynamik kohärenter Strukturen beim
laminar-turbulenten Umschlag.
CV – Appendix – D. Rempfer, November 2019 18
Drittes Kolloquium im Schwerpunktprogramm der DFG: Strukturbildung in dissipativen
kontinuierlichen Systemen: Experiment und Theorie im quantitativen Vergleich,
September 26–28, 1993, Suhl, Germany: Zur Dynamik kohärenter Strukturen.
45th Annual Meeting of the American Physical Society, Division of Fluid Mechanics,
November 22–24, 1992, Tallahassee, Florida: Dynamics of Coherent Structures in a Flat-
Plate Boundary Layer.
Fourth European Turbulence Conference ETC-IV, June 30–July 3, 1992, Delft, The
Netherlands: The Dynamics of Coherent Structures in a Flat-Plate Boundary Layer.
EuroVisc Working Party meeting, April 28–29, 1992, Stuttgart, Germany: Investigation of
Fundamental Breakdown to Turbulence in Boundary Layers. Part II: Dynamics of Coherent
Structures.
8th Symposium on Turbulent Shear Flows, September 9–11, 1991, München, Germany:
Evolution of Three-Dimensional Coherent Structures in a Flat-Plate Boundary Layer.
Fünfter STAB-Workshop, November 13–15, 1991, Göttingen, Germany: Dreidimensionale
kohärente Strukturen beim Umschlag in einer Plattengrenzschicht.
Seminar on Computational Fluid Dynamics, April 17, 1990, AME-Department, University
of Arizona, Tucson, Arizona: Low-Dimensional Models for Turbulent Flow.
20th International Electric Propulsion Conference, October 3–6, 1988, Garmisch-
Partenkirchen, Germany: Investigation of Instabilities in MPD-Thruster Flows Using a
Linear Dispersion Relation.
CV – Appendix – D. Rempfer, November 2019 19
Student Supervision
Ph.D. Theses
PETER KOZAK (Summer 2016):
Blade-Pitch Optimization Methods for Vertical-Axis Wind Turbines
SRIHARSHA KANDALA (Spring 2015):
Large-Eddy Simulation of Complex Flows
PARITOSH MOKHASI (Spring 2009):
Optimal Solution of the Direct and Inverse Problems of Contaminant Dispersion
TUMMALA SHANTI (Fall 2008):
Analysis of Flow in the Retina of Rats. (Co-Advisor with J. Derwent, BME, IIT)
VEJAPONG JUTTIJUDATA (Spring 2003):
Proper Orthogonal Decomposition in Squire’s Coordinate System and Its Low-Dimensional Model
of Channel-Flow Turbulence
LOUISE PARSONS (Fall 2002):
Low-Dimensional Models of Near-Wall Turbulent Flows over Compliant Surfaces
JOHN GIBSON (Summer 2002):
Dynamical systems Models of Wall-Bounded, Shear- Flow Turbulence.
SHENG XU (Spring 2002):
Turbulence over a Compliant Surface: Numerical Simulation and Analysis
JÖRG REUTER (Fall 2001):
Numerische Untersuchung der Transition in der Rohrströmung (“Numerical Investigation of Pipe-
Flow Transition”)
CEM ALBUKREK (Fall 2001):
Divergence-Free Wavelets for the Analysis and Simulation of Turbulent Flow
KIRAN BHAGANAGAR (Summer 2001):
Analysis of Transition to Turbulence for a Boundary Layer Using Spatial DNS with a Parallel
Multigrid Kernel
CV – Appendix – D. Rempfer, November 2019 20
M.S. Theses
PAYAM MEHRPOOYA (Fall 2014)
Improvement of Vertical Axis Wind Turbine Performance via Turbine Coupling
PETER KOZAK (Spring 2014):
Effects of Unsteady Aerodynamics on Vertical-Axis WindTurbine Performance
ALEJANDRO BAEZ GUADA (Spring 2013):
Computation of Thin Airfoil Aerodynamics for Micro Air Vehicle Applications
UDIT GOYAL (Fall 2011):
Optimization of Novel Vertical Wind Turbine Concepts.
MIHAIL SPASOV (Fall 2007):
Lattice Boltzmann Method for Fluid Dynamics
VIVEK JOSHI (Fall 2006):
Adaptive Simulation, Analysis and Modeling of Incompressible Near-Wall Turbulent Flows using
Divergence-Free Wavelets
PARITOSH MOKHASI (Fall 2004):
Optimal Solution of the Direct and Inverse Problems of Contaminant Dispersion
Undergraduate Research Participants
GEORGE SUBASHKI:
Multiple Streamtube Analysis of Vertical Wind Turbines.
TUMMALA SHANTI:
Stability Analysis of Near-Wall Streaky Structures in Turbulent Channel Flow.
CV – Appendix – D. Rempfer, November 2019 21
Contributions to the Profession
Professional Memberships
American Society of Engineering Education (ASEE)
American Society of Engineering Education (ASEE) – Engineering Deans Council (EDC)
Global Engineering Deans Council (GEDC)
American Institute of Aeronautics and Astronautics (AIAA)
American Physical Society, Division of Fluid Mechanics (APS)
The New York Academy of Sciences (NYAS)
Deutsche Gesellschaft für Luft- und Raumfahrt (DLR)
Conference Organizing Committees
Organizer, Minisymposium on Reduced-Order Modeling for Feedback Flow Control, at the 58th
Annual Meeting of the American Physical Society, Division of Fluid Mechanics, November 2005,
Chicago, IL.
Chair, Committee on Publicity and Publications of the 58th Annual Meeting of the American
Physical Society, Division of Fluid Mechanics, November 2005, Chicago, IL.
Organizer of the Cornell Workshop on POD-Galerkin Models for the Dynamics and Control of
Complex Flows, October 1997, Ithaca, NY.
Conference Session Chair
Session on Computational and Theoretical Aerodynamics at the 64th Annual Meeting of the
American Physical Society, Division of Fluid Mechanics, November 20–22, 2011, Baltimore,
Maryland.
Session on Flow Control IV at the 63rd Annual Meeting of the American Physical Society, Division
of Fluid Mechanics, November 21–23, 2010, Long Beach, California.
Session on Instability: Jets & Wakes III at the 62nd Annual Meeting of the American Physical
Society, Division of Fluid Mechanics, November 22–24, 2009, Minneapolis, Minnesota.
Mini-symposium on Reduced-Order Modeling for Feedback Flow Control at the 58th Annual
Meeting of the American Physical Society, Division of Fluid Mechanics, November 20–22, 2005,
Chicago, Illinois.
Session on Aerodynamics and Acoustics at the 56th Annual Meeting of the American Physical
Society, Division of Fluid Mechanics, November 23–25, 2003, East Rutherford, New Jersey.
Main plenary session on Impact of Turbulence on Sediment Transport at the Monte Verità
Symposium on Sedimentation and Sediment Transport, Ascona, Switzerland, September 2–6,
2002
CV – Appendix – D. Rempfer, November 2019 22
Session on Hypersonics and High-Speed Boundary Layer Transition at the 31st AIAA Fluid
Dynamics Conference and Exhibit, Anaheim, California, June 11–14, 2001.
Session on Direct Numerical Simulation at the 51st Annual Meeting of the American Physical
Society, Division of Fluid Dynamics, Philadelphia, Pennsylvania, November 22–24, 1998.
NSF Review Panels
Biofluids Program, Winter 2017
Turbulence Program, Spring 2007
Turbulence Program, Fall 2005
Turbulence Program, Spring 2005
Journal/Book Reviews
AIAA Journal
Applied Mathematical Modeling
ASME Journal of Fluids Engineering
Computer Aided Design
Computer Methods in Applied Mechanics and Engineering
European Journal of Mechanics B/Fluids
International Journal for Numerical Methods in Fluids
Journal of Computational Physics
Journal of Fluid Mechanics
Journal of Theoretical and Computational Fluid Dynamics
Ocean Modelling
Physica D
Physics of Fluids
Cambridge University Press, Cambridge, UK
McGraw-Hill, New York, NY
West Educational Publishing, Amesbury, MA