News & Notice
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Secretariat of ACFD2022 Korean Society for Computational Fluids Engineering (KSCFE) |
 
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Prof. Seungwon Shin
Hongik University Numerical simulation of a droplet collision onto curved surface |
Biography
Seungwon Shin received his B.S. and M.S. degree in Mechanical Engineering from Seoul National University, Korea, in 1995 and 1998, respectively. He then received his Ph.D. degree from Georgia Tech in 2002.
Dr. Shin is currently a Professor at the School of Mechanical and System Design Engineering at Hongik University in Seoul, Korea.
Dr. Shin’s research interests include computational fluid dynamics, multiphase flow, surface tension effect. His works are focused on developing and upgrading numerical method for general two-phase fluid including contact dynamics
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Dr. Karuppanasamy Anandhanarayanan
Defense Research and Development Organization Applications of grid-free solver to Aerospace Vehicles |
Biography
- Obtained Bachelor of Technology (Aeronautical Engineering) in 1991, Master of Engineering (Guided Missiles) in 1993 and Doctorate in Aerospace Engineering in 2004.
- Working in Defence Research and Development Laboratory, Hyderabad, India since 1993.
- Areas of interest are Grid-free Euler and Navier-stokes solver, Coupled Euler Boltzmann solver for non-equilibrium transitional flows and Distributed computing.
- More than 25 international journal publications and 75 conference papers
- Leading the directorate of computational dynamics and carrying out simulation of high speed flight vehicles
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Prof. Ming-Chen Hsu
Iowa State University Isogeometric Fluid-Structure Interaction Modeling for Biomedical and Aerospace Applications |
Biography
Dr. Ming-Chen Hsu is an Associate Professor in the Department of Mechanical Engineering at Iowa State University. He received his BS and MS degrees in Engineering Science and Ocean Engineering from National Taiwan University in 2003 and 2005, respectively, his MS degree in Engineering Mechanics from The University of Texas at Austin in 2008, and his PhD degree in Structural Engineering from University of California San Diego in 2012. From 2012 to 2013, he was a postdoctoral fellow at Oden Institute before joining Iowa State University. The overarching goal of his research program is to advance scientific understanding of interfacial mechanics of multiphysics systems, with a special focus on fluid-structure interaction (FSI) problems, and to expand this understanding toward the development of contemporary predictive computational methods that solve complex real-world engineering challenges. He is the recipient of the 2019 US Association for Computational Mechanics (USACM) Gallagher Young Investigator Award and has been identified as a Web of Science Highly Cited Researcher in Engineering (2017), Computer Science (2016–2018), and Cross-Field (2019–2020). He has published over 85 peer-reviewed journal papers and served on several national and international professional society committees on computational engineering and sciences
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Prof. Yasutaka Yamaguchi
Osaka University Understanding of Static and Dynamic Wetting through the connection between microscopic molecular dynamics and macroscopic continuum mechanics with interfacial descriptions |
Biography
- 1994: Bachelor’s degree at the Department of Mechanical Engineering, The University of Tokyo
- 1996: Master’s degree at the Department of Mechanical Engineering, The University of Tokyo
- 1999: Doctor’s degree at Department of Mechanical Engineering, The University of Tokyo
- 1999- 2002: JSPS post-doctoral fellow
- 1999-2001: Guest scientist at Karlsruhe Research Center and Karlsruhe University
(Karlsruhe Institute of Technology at present) - 2002-2006: Assistant Professor at the Department of Mechanophysics Engineering, Osaka University
- 2005-2006: Guest scientist at Karlsruhe Research Center and Karlsruhe University
- 2006-present: Associate Professor at the Department of Mechanical Engineering, Osaka University
- (part-time) 2015-2020: Lecturer at Vietnam-Japan University
- (part-time) 2016-present: Visiting associate professor at Tokyo University of Science
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Prof. Shin Hyung Rhee
Seoul National University Multi-phase flow of a sphere moving along a circular arc through an interface |
Biography
Seoul National University, Korea
B.S. / Naval Architecture and Ocean Engineering
02.1990
Seoul National University, Korea
M.S. / Naval Architecture and Ocean Engineering
02.1992
The University of Iowa, USA
Ph.D. / Mechanical Engineering
07.1998
For the last thirty years since his graduate study, Prof. Rhee passionately dedicated his career to Computational Fluid Dynamics (CFD) technology development for real-world applications. Prof. Rhee’s mainstream research topic is naval hydrodynamics and he developed and shared CFD codes for many different naval applications. As an engineering professor, Prof. Rhee considers his profession as a way to both satisfy his own curiosity and materialize new ideas. He translated a book published by SNAME to Korean and authored two books. He published 83 international peer reviewed journal papers and registered 19 patents in the US and Korea.
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Prof. Jiequan Li
Institute of Applied Physics and Computational Mathematics A spacetime outlook on CFD: Spatio-temporally correlated models and spatio-temporally coupled algorithms |
Biography
Professor Jiequan Li is a mathematical professor at the Institute of Applied Physics and Computational Mathematics, Beijing; and a guest professor at Center for Applied Physics and Technology, Peking University. He graduated from Institute of Mathematics, the Chinese Academy of Sciences, completed Lady Davis Fellowship at the Hebrew University of Jerusalem in Israel and the Humboldt Fellowship at Magdeburg University in Germany. He also took visiting professor positions in more than twenty academic institutions, including Academia Sinica in Taiwan, Stanford University, the Pennsylvania State University, Mainz University, Hongkong University of Science and Technology, National University of Singapore, Poincare Institut Henri Poincare etc. He has the expertise in the fields of computational fluid dynamics, numerical analysis and partial differential equations. He has published more than 80 research papers in top professional journals. His work on two-dimensional Riemann problem for gas dynamics is internationally recognized, as indicated in his book published in Longman Press. Recently he is paying more attention on the design of numerical methods for compressible fluid flows and multi-material/phase flows, which have been partially applied to practical engineering problems.
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Prof. Hyoungjin Kim
Kyung Hee University Flow simulation of a supersonic airplane with installed engine nacelle |
Biography
Dr. HyoungJin Kim received his BS, MS, and PhD degrees from Korea’s Seoul National University, Department of Aerospace Engineering. He was a Postdoc and assistant professor at Japan’s Tohoku University and a Senior Researcher at Korea Aerospace Research Institute. From 2007 to 2010, he was a senior fellow of the NASA Postdoctoral Program at Glenn Research Center. From 2010 to 2017, he worked at NASA Glenn Research Center as a contract aerospace engineer.
Currently, he is a professor at department of mechanical engineering of Kyung Hee University, Korea. His research interests include Aerodynamic Design Optimization, Applied Aerodynamics, and AeroPropulsion.
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Prof. Boo Cheong Khoo
National University of Singapore Numerical study of Taylor Couette flow with helical Corrugated surface |
Biography
Director, Temasek Laboratories, National University of Singapore (NUS);
Professor, Department of Mechanical Engineering, Faculty of Engineering, NUS
BC Khoo graduated from the University of Cambridge with a BA (Honours, 1st Class with Distinction). In 1984, he obtained his MEng from the NUS and followed by PhD from MIT in 1989. He joined NUS in 1989.
From 1998 to 1999, he was seconded to the Institute of High Performance Computing (IHPC, Singapore) and served as the deputy Director and Director of Research.
In 1999, BC returned to NUS and spent time at the SMA-I (Singapore MIT Alliance I) as the co-Chair of High Performance Computation for Engineered Systems Program till 2004. In the period 2005-2013, under the SMA-II, he was appointed as the co-Chair of Computational Engineering Program.
In 2011-2012, BC was appointed the Director of Research, Temasek Laboratories, NUS. Since 2012, he has been the Director, Temasek Laboratories.
BC Khoo serves on numerous organizing and advisory committees for International Conferences/Symposiums held in USA, China, India, Singapore, Taiwan, Malaysia, Indonesia and others. He is a member of the Steering Committee, HPC (High Performance Computing) Asia. He has received a Defence Technology Team Prize (1998, Singapore) and the prestigious Royal Aeronautical Prize (1980, UK). Among other numerous and academic and professional duties, he is the Associate Editor of Communications in Computational Physics (CiCP) and Advances in Applied Mathematics and Mechanics (AAMM), and is on the Editorial Board of International Journal of Thermofluid Science and Technology, Ocean Systems Engineering (IJOSE), International Journal of Intelligent Unmanned Systems (IJIUS), The Open Mechanical Engineering Journal (OME) and The Open Ocean Engineering Journal.
In research, BC ‘s interests are in:
(i) Fluid-structure interaction
(ii) Underwater shock and bubble dynamics
(iii) Compressible/Incompressible multi-medium flow
He is the PI of numerous externally funded projects including those from the Defense agencies like ONR/ONR Global and MINDEF (Singapore) to simulate/study the dynamics of underwater explosion bubble(s), flow supercavitation and detonation physics. His work on water circulation and transport across the turbulent air-sea interface has received funding from the then BP International for predicting the effects of accidental chemical spills. Qatar NRF has funded study on internal sloshing coupled to external wave hydrodynamics of (large) LNG carrier.
BC has published over 438 international journal papers, and over 400 papers at international conferences/symposiums. He has presented at over 135 plenary/keynote/invited talks at international conferences/symposiums/meetings.
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Prof. Lin Fu
The Hong Kong University of Science and Technology High-order TENO schemes for hyperbolic conservation laws |
Biography
Prof. Fu is an Assistant professor in the Department of Mechanical and Aerospace Engineering and the Department of Mathematics at The Hong Kong University of Science and Technology (HKUST). Before he joined HKUST, he was a postdoctoral fellow working with Prof. Parviz Moin at Center for Turbulence Research (CTR), Stanford University, for more than 3 years and he also did postdoctoral research with Prof. Nikolaus A. Adams in Technical University of Munich (TUM), where he obtained his Ph.D. degree with a grade of Summa Cum Laude (passed with the highest distinction). He has published more than 30 journal papers on PNAS, JFM, PRF, JCP, CMAME, etc.
Prof. Fu’s on-going and future research involves the fundamental study of flow physics including turbulence, transitional flows, multi-phase flows, and electrically conducting fluids. His research dedicates to an improved theoretical understanding of these complex fluids and contributes to optimizing the engineering quantities of interest, e.g., drag, heat transfer, mixing ratio, etc. The potential applications involve the flow control of transonic and low-speed vehicles, scramjet hypersonic propulsion systems, combustions, microbubble dynamics, cavitation, aerodynamics, etc.
Due to the wide-range flow length-scales including singularities (e.g. shockwaves), the main research methods rely on the high-fidelity Direct Numerical Simulation (DNS) and Large-eddy Simulation (LES). In order to reproduce these sophisticated fluid phenomena with the modern supercomputers, advanced turbulence models, e.g., subgrid-scale (SGS) model and wall model, will be developed as well as state-of-the-art fundamental numerical methods which include but not limited to high-order numerical schemes for hyperbolic conservation laws, interface-tracking algorithms, high-quality mesh generation technologies, and robust multi-physics parallel software.
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Prof. Yi-Ju Chou
National Taiwan University Development of a data-driven computational platform for multi-scale modeling of complex suspension flows |
Biography
Dr. Chou received his PhD degree in Environmental Fluid Mechanics with a minor in Computational and Mathematical Engineering at Stanford University at 2009. After working as a postdoc researcher at Stanford University for two years, he joined the Institute of Applied Mechanics at National Taiwan University in 2011 and became a full professor in 2020. He was awarded the NSF excellent young scholar research grant during 2016-2020. In 2020, he received the academic award of College of Engineering at National Taiwan University. He also received the Young Scholar Award issued by the Society of Theoretical and Applied Mechanics of Taiwan in 2021. His current research focuses on the development and application of novel numerical methods to study complex flow phenomena that span a wide range of spatial and temporal scales. Recent research activities involve study of stratified turbulence, particle-laden flows, hydrodynamic instability, and data-driven flow modeling.
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Dr. Akira Oyama Japan Aerospace Exploration Agency Real-World Multiobjective Design Optimization Using CFD |
Biography
Akira Oyama is currently associate professor at Institute of Space and Astronautical Science, JAXA and the University of Tokyo in Japan. He had been the leader of “Design innovation with multiobjective design exploration” in Strategic Programs for Innovative Research from 2011 to 2015 and the leader of “Research and development of multiobjective design exploration and high-speed computation technology that innovates industry” in Priority issue on post-K computer from 2016 to 2019. He received many awards including frontier award of Fluids Engineering Division, JSME. His research interests include aerodynamics, computational fluid dynamics, design optimization, and space engineering.
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Prof. Hang Ding University of Science and Technology of China Fluid-structure interaction with dynamic wetting: numerical methods and applications |
Biography
Dr. Hang Ding is a professor of fluid mechanics in the department of modern mechanics, University of Science and Technology of China (USTC). He received his Bachelor at Nanjing University of Aeronautics and Astronautics in 1993, and obtained his Doctor degree at National University of Singapore in 2005. He joined USTC in 2011, and was granted by the 100 Talent Program of Chinese Academy of Sciences in the same year. He was supported by the National Science Fund for Distinguished Young Scholars in 2014. His research interests are in the area of multiphase flow simulations, interfacial instability and flows with moving contact lines. In particular, he is interested in the computational modeling of multiphase flows with applications in engineering and science, numerical solutions of such flow problems using the state-of-the-art numerical schemes, and gaining a full understanding of the underlying fluid mechanisms. So far, he has published more than 70 journal articles, including in Annual Review of Fluid Mechanics, Journal of Fluid Mechanics and Journal of Computational Physics
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Prof. Dimitri Mavriplis University of Wyoming CFD Grand Challenge Problems, Certification by Analysis and the CFD2030 Vision |
Biography
Dr. Dimitri Mavriplis is currently the Max Castagne Professor in the department of Mechanical Engineering, at the University of Wyoming in the USA. He obtained his PhD in Mechanical and Aerospace Engineering from Princeton University, where he worked on the development of unstructured mesh techniques for CFD with applications in aerodynamics. After obtaining his PhD, he worked at ICASE/NASA Langley Research Center, in Hampton Virginia, for 16 years, where he further developed unstructured mesh CFD methods. In 2003 he joined the University of Wyoming, where he has led a research group of graduate students and postdoctoral researchers with interests in CFD for aerodynamic applications. During this time, the group has focused on areas including nonlinear solver methods, high-order discretizations, time-spectral methods, and multi-disciplinary adjoint methods. He also developed the NSU3D unstructured mesh CFD code, which is currently used in the aerospace industry by several aircraft manufacturers in the USA and Canada. He was one of the authors of the NASA Vision 2030 Report which laid out a roadmap for CFD development over a 20 year period. He was also a co-author of the recent Certification by Analysis study and report commissioned by NASA. He was one of the founding members of the CFD2030 Integration Committee within the AIAA and recently completed a two-year term as chair of the committee.