Plenary Talks
Prof. Alberto Cuoci
Politecnico di Milano, Italy
Numerical simulations of reacting flows with detailed kinetic mechanisms in OpenFOAM
Prof. Zheng Chen
Peking University
DetonationFOAM and its application in oblique detonation waves
Prof. Hrvoje Jasak
University of Cambridge
TBA
Prof. Kai Hong Luo
Tsinghua University / University College London
Birth and Development of CFD: Perspectives and Prospects
Prof. Zhuyin Ren
Tsinghua University
Adaptive combustion modelling of supersonic flames in OpenFOAM
Prof. Decheng Wan
Shanghai Jiao Tong University
Wall-Modeled Large-Eddy Simulation for Complex Turbulent Flows around Axisymmetric Body
Prof. Jianping Wang
Peking University
BYCFOAM and its application in rotating detonation engine
Dr. Yi Wang
Fire Dynamics Group at FM Global
FireFOAM – Modeling Insdustial Fire Hazard involving thermoplastic and liquid fuels
Keynote Talks
Prof. Zhi Chen
Peking University
Recent challenges and progresses of DeepFlame towards AI and GPU empowered combustion CFD
Prof. Tai Jin
Zhejiang University
Numerical study of turbulent flames under high pressures
Prof. Francisco E. Hernandez Perez
King Abdullah University of Science and Technology
Simulation of multiphase and reacting flows for cleaner combustion using OpenFOAM
Prof. Ping Ping
China University of Petroleum (Huadong)
Numerical simulation of Li-ion battery from the safety perspective: A multiscale modeling strategy based on OpenFOAM
Prof. Yihao Tang
Beihang University
Numerical Study of Forced Ignition and Flashback Using Low-Mach Solver in OpenFOAM
Prof. Ville Vuorinen
Aalto University
Lessons learned in OpenFOAM large-eddy simulations on sprays and flames between 2007-2023
Prof. Bosen Wang
Beihang University
A stochastic particle method for modelling primary atomisation
Prof. Haiou Wang
Zhejiang University
A numerical framework for liquid fuel atomization, evaporation and combustion
Prof. Lipo Wang
Shanghai Jiao Tong University
Filtered turbulent flame model in non-premixed combustion
Prof. Wei Yao
Chinese Academy of Sciences
Supersonic combustion modeling based on dynamic zone concept
Prof. Fan Zhang
Tianjin University
Effects of non-equilibrium plasma on flame characteristics with a new plasma assisted combustion solver and fully analytic Jacobi in OpenFOAM
Prof. Tianhan Zhang
Southern University of Science and Technology
Deep learning-powered Reduced-Optimized-Pretrained (DROP) chemistry solver for combustion simulation using OpenFOAM
Prof. Dezhi Zhou
Shanghai Jiao Tong University
Adaptive scalar transport combustion modeling in OpenFOAM
Dr. Thorsten Zirwes
University of Stuttgart
Investigating preferential diffusion effects in reacting flows with the OpenFOAM solver EBI-DNS