Detonation Combustion and Propulsion Technology
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| Jianping Wang | Guilai Han |
| Peking University, China | Institute of Mechanics, Chinese Academy of Sciences, China |
| University of Chinese Academy of Sciences, China |
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Summary:
This session focuses on cutting-edge advancements in detonation combustion and propulsion technology, with an emphasis on innovative design, theoretical breakthroughs, and engineering applications of detonation engines. Key topics include:
Fundamental studies on initiation and propagation mechanisms of detonation waves, covering shock wave dynamics and coupling effects in reactive flow fields, providing theoretical foundations for enhancing combustion efficiency and stability; Performance analysis of detonation engines through numerical simulations and experimental approaches, optimizing thermodynamic cycle parameters and structural design; Research on system integration technologies, such as coordinated control strategies and thermal protection solutions for multi-mode detonation propulsion systems; Exploration of deep coupling between detonation combustion and turbine/rocket propulsion systems, developing novel pathways for combined propulsion technology to overcome specific impulse limitations of traditional systems.
The session aims to accelerate the engineering transformation of detonation propulsion technology for critical applications in aerospace vehicles and reusable aerospace transportation systems, injecting innovative momentum into next-generation advanced power systems.
Submission Deadline: 2025.5.10