MS 01 |
Reaction Kinetics of Carbon-Neutral Fuels |
Akira Miyoshi (Hiroshima University, Japan), Yasuyuki Sakai (Ibaraki University, Japan) |
MS 02 |
Direct numerical simulations, analysis, and modeling of premixed hydrogen flames |
Heinz Pitsch (RWTH Aachen University, Germany), Mamoru Tanahashi (Tokyo Institute of Technology, Japan), Andrew Aspden (Newcastle University, United Kingdom), Martin Rieth (Sandia National Laboratories, United States), Michael Gauding (RWTH Aachen University, Germany) |
MS 03 |
Combustion Noise and Thermoacoustic Instabilities |
Abhishek Lakshman Pillai (Kyoto University, Japan), Matthias Ihme (Stanford University, United States), Ryoichi Kurose (Kyoto University, Japan) |
MS 04 |
Linearized Modelling of Flame Dynamics |
Thomas Ludwig Kaiser (Technical University Berlin, Germany) |
MS 05 |
Liquid Ammonia Spray and Combustion: Numerical Modelling |
Jiangkuan Xing (Kyoto University, Japan), Christine Rousselle (Université d'Orléans, France) |
MS 06 |
Detonations in Liquid-Fuel Sprays: Recent Progress and Open Questions |
Alexei Poludnenko (University of Connecticut, United States), Hai Wang (Stanford University, United States) |
MS 07 |
Computational Tools for Detonation-Driven Propulsion Physics |
Jiro Kasahara (Nagoya University, Japan), Venkat Raman (University of Michigan, United States), Jeong-Yeol Choi (Pusan National University, Korea), Akiko Matsuo (Keio University, Japan), Nobuyuki Tsuboi (Kyushu Institute of Technology, Japan) |
MS 08 |
Advances in Detailed Numerical Simulation of Reciprocating Engines |
Yasuo Moriyoshi (Chiba University, Japan), Taisuke Nambu (Japan Aerospace Exploration Agency, Japan) |
MS 09 |
Numerical Combustion Research on Fundamental Phenomena in Automobile Engines |
Shinji Nakaya (The University of Tokyo, Japan), Tsukasa Hori (Osaka University, Japan) |
MS 10 |
Sustainable Aviation Fuel: Modeling Challenges and Opportunities |
Shashank Yellapantula (National Renewable Energy Laboratory, United States), Jacqueline H Chen (Sandia National Laboratories, United States) |
MS 11 |
Liquid Rocket Engine Combustion |
Takanori Haga, Taro Shimizu (Japan Aerospace Exploration Agency, Japan), Hiroshi Terashima (Hokkaido University, Japan) |
MS 12 |
Spread of ammonia combustion research - Role of numerical simulation - |
Hisashi Nakamura (Tohoku University, Japan), Ekenechukwu C Okafor (Kyushu University, Japan) |
MS 13 |
Advances in dimensionality reduction and manifold learning for the parametrization and modeling of large combustion systems |
Temistocle Grenga (University of Southampton , United Kingdom), Alessandro Parente (Université Libre de Bruxelles, Belgium) |
MS 14 |
Numerical modeling and simulation of reactive dense particle-laden flows |
Takuya Tsuji (Osaka University) |
MS 15 |
Combustion simulation acceleration using GPU and manycore heterogenous computing hardwares |
Zhi X. Chen (Peking University, China), Hong Im (King Abdullah University of Science and Technology, Saudi Arabia), Venkat Raman (University of Michigan, United States) |
MS 16 |
High-fidelity numerical simulations using FUGAKU-scale supercomputers in Academic-Industrial Collaborations |
Kenji Yamamoto (Mitsubishi Heavy Industries, Japan), Nobuyuki Oshima (Hokkaido University, Japan), Ryoichi Kurose (Kyoto University, Japan) |
MS 17 |
Machine learning techniques for reacting flow simulation and analysis |
Abdulla Ghani (Technical University of Berlin, Germany), Anh Khoa Doan (Delft University of Technology, Netherlands), Hiroshi Gotoda (Tokyo University of Science, Japan) |
MS 18 |
Data-driven tools for HPC simulations of e-fuels combustion |
Federica Ferraro (Technical University Braunschweig, Germany), Alessandro Stagni (Politecnico di Milano, Italy) |
MS 19 |
Tabulation Methods for Homogeneous and Heterogeneous Reacting Flow: Machine Learning and Other Approaches |
Stelios Rigopoulos (Imperial College London, United Kingdom), Francesca Di Mare (Ruhr Universitat Bochum, Germany), Fabian Sewerin (Otto-von-Guericke University Magdeburg, Germany) |