Invited Lectures
Krzysztof J. Fidkowski, Prof. University of Michigan, Michigan, USA |
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Krzysztof J. Fidkowski is a Professor of Aerospace Engineering at the University of Michigan. He earned his S.B. in Physics and S.B., S.M, and Ph.D. degrees in Aeronautics and Astronautics from MIT. His doctoral thesis was in computational fluid dynamics and investigated the applicability of high-order discontinuous finite-element methods to aerodynamics simulations over complex geometries. Before joining the University of Michigan in 2008 as an assistant professor, he was a post-doctoral associate at the Aerospace Computational Design Laboratory at MIT, where he worked on projection-based reduced models. At the University of Michigan, Professor Fidkowski teaches aerodynamics, numerical methods, and computational fluid dynamics. He has received young investigator awards from the Department of Energy and the Air Force Office of Scientific Research. He previously served as chair of the CFD Subcommittee of the AIAA Fluid Dynamics Technical Committee, organized fluids and CFD tracks at multiple AIAA conferences, and is an AIAA Associate Fellow. His primary research field is in algorithmic development for computational fluid dynamics, specifically in the use of adjoint methods for numerical error estimation, mesh adaptation, and uncertainty quantification. In recent work, Professor Fidkowski has studied reduced models of high-order dynamical systems, optimization under uncertainty, machine learning for error estimation and mesh adaptation, panel methods for low-speed aerodynamics, and dynamic closure models for turbulent flows. |
J.M. Floryan, Prof. Western University, London, Ontario, Canada. |
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J.M. Floryan is a Professor at Western University, London, Ontario, Canada. He received his Ph.D. in 1980 from Virginia Tech and did postdoctoral work in 1981 at Northwestern University. He was a visiting professor at the City University of Hong Kong, Stuttgart University, Darmstadt Technical University, National University of Singapore, and Beijing Institute of Technology. He was a visiting researcher at DLR Gottingen, National Aerospace Laboratory Tokyo, CERT-ONERA in Toulouse, and Los Alamos National Laboratory. Dr. Floryan’s primary professional interests are developing flow management strategies relying on passive and active actuation patterns (roughness, suction, heating, and vibration). He served as President of the Canadian Society for Mechanical Engineering (CSME) and the Canadian Congress of Applied Mechanics (CANCAM). Dr. Floryan is a Fellow of the American Physical Society (APS), the American Society of Mechanical Engineers (ASME), the CSME, the Canadian Aerospace and Space Institute (CASI), the Engineering Institute of Canada (EIC), and the Japanese Society for the Promotion of Science (JSPS), as well as being a NATO Research Fellow (France) and a Science and Technology Agency Fellow (Japan). An AIAA Associate Fellow, he was the winner of the Robert W. Angus Medal (CSME), the Canadian Pacific Railway Engineering Medal (EIC), the McCurdy Award (CASI), the Humboldt Research Prize, Erskine Fellow (New Zealand), and Lady Davis Fellow (Technion). He is the Canadian representative to IUTAM. |
Genta Kawahara, Prof. Osaka University, Osaka, Japan |
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Prof. Genta Kawahara received his B.S., M.S. and Ph.D. degrees from Osaka University. He was a visiting scholar at Center for Turbulence Research, NASA Ames Research Center/Stanford University before being appointed to an associate professor at Kyoto University in 2001 and a professor at Osaka University in 2005. Currently, he is an associate editor of Journal of Fluid Mechanics and an editor-in-chief of Fluid Dynamics Research. His research interests are in turbulence, subcritical transition to turbulence, simple invariant solutions to the Navier-Stokes equation and turbulent heat transfer. |
Luis Pablo Ruiz-Calavera, Prof. Airbus & Universidad Politécnica de Madrid |
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Prof Luis Pablo Ruiz-Calavera is currently the Executive Expertise Leader for Aerodynamics at Airbus and the Associated Professor at Universidad Politécnica de Madrid. He received his PhD in Aerodynamics from Universidad Politécnica de Madrid. Since 1984 he has held several positions, including Researcher at Instituto Nacional de Técnica Aeroespacial, HO Aerodynamics at Airbus Military and Vicepresident HO Flight Physics at Airbus Defence and Space. Within these roles, he has participated in and successfully lead many aerospace research and development projects. | ||
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Professor Spencer Sherwin is Head of Department and Professor of Computational Fluid Mechanics in the Department of Aeronautics at Imperial College London. Currently, he is an associate editor of Journal of Fluid Mechanics. He received his MSE and PhD from the Department of Mechanical and Aerospace Engineering Department at Princeton University. Prior to this he received his BEng from the Department of Aeronautics at Imperial College London. Professor Sherwin leads an active research group specializing in the development and application of parallel high order spectral/hp element methods (Nektar++) for flow around complex geometries with a particular emphasis on vortical and bluff body flows and biomedical modelling of the cardiovascular system. He has been closely involved in industrial application of these methods through partnerships with McLaren Racing, Airbus and Rolls Royce. Currently Professor Sherwin is Principal Investigator on the EPSRC funded Platform for Research in Simulation Methods. |
Daniele Simoni, Prof. University of Genova |
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Prof. Daniele Simoni is the Head of the Aerodynamics and Turbomachinery Laboratory of the University of Genova. He graduated in Mechanical Engineering at the University of Genova with honours (09/2005). He received his PhD in Fluid Machinery from the University of Genova in 2009. He became Full Professor at the University of Genova in 2020. Since 2023 he is Coordinator of the Ph. D course in “Machine and Systems Engineering for Energy, Environment and Transport”. Prof. Daniele Simoni developed expertise in the design of open and closed loop wind tunnels, and in the design of turbomachinery and aeroengine components. He is expert on the application and data analysis of advanced measuring techniques for the investigation of time-dependent unsteady and distorted flow fields developing into turbomachinery components, such as laser Doppler Velocimetry, Time Resolved Particle Image Velocimetry, Fast Response Aerodynamics Pressure Probes (FRAPP), as well as hot-wire and hot-film anemometers. He developed acquisition and post-processing techniques for data reduction and identification of reduced order model by means of Proper Orthogonal Decomposition (POD), Dynamic Mode Decomposition (DMD) and wavelet techniques. |