Innovations in Compressible Multiphase Flows: Modeling, Simulation, and Applications

Chair:
Bing Wang
Tsinghua University, China

Summary:

This session focuses on advancing the frontiers of compressible multiphase flow science through integrated investigations spanning fundamental mechanisms, cutting-edge computational methodologies, and transformative engineering applications. Key areas include elucidating shock wave-droplet/bubble interactions, interfacial instabilities, and phase transitions (e.g., boiling, condensation, cavitation) to enhance combustion efficiency and thermal management stability; developing machine learning-augmented turbulence modeling and GPU-accelerated high-fidelity simulations for industrial-scale multiphase systems; exploring reactive flows such as detonation-driven particle-laden dynamics and spray combustion, alongside heat/mass transfer challenges in extreme environments like hypersonic propulsion and nuclear reactor safety; and advancing cross-disciplinary innovations in aerospace propulsion (e.g., scramjet fuel atomization, supercavitating projectiles), biomedical engineering (shockwave-assisted drug delivery), and sustainable energy (supercritical CO₂ cycles). The session aims to accelerate the translation of theoretical breakthroughs into practical solutions, addressing critical challenges in high-pressure, cryogenic, and hypersonic systems while fostering synergies between aerospace, energy, and biological domains. By bridging multiscale modeling, advanced computations, and real-world applications, this session will drive progress toward next-generation propulsion systems, thermal protection technologies, and green energy infrastructure.

Submission Deadline: 2025.5.18