Wide-Range Aerospace Combined Engine Technology (Submission Deadline: May 31, 2026)
宽域空天组合发动机技术
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| Fei Qin |
Bing Liu |
Shaohua Zhu |
Dequan Xu |
| Northwestern Polytechnical University, China |
Northwestern Polytechnical University, China |
Northwestern Polytechnical University, China |
Northwestern Polytechnical University, China |
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| Keywords: |
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- Thermal Protection Technology (热防护技术)
- Novel Power and Detonation Technology (新型动力及爆震技术)
- Intelligent Combustion Control Technology (燃烧智能控制技术)
- Intelligent Simulation and Design Technology (智能仿真与设计技术)
- Wide-Range Combustion Enhancement Technology (宽域燃烧增强技术)
- Wide-Range Combustion Mechanism (宽域燃烧机理)
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| Topics: |
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- Combustion mechanism and flow characteristics of wide-domain aerospace combined engines (宽域空天组合发动机燃烧机理与流动特性)
- Wide-domain combustion organization and combustion enhancement technology (宽域燃烧组织及燃烧增强技术)
- Thermal protection technology for aerospace engines under extreme environments (极端环境下空天发动机热防护技术)
- Novel detonation power and combined propulsion technology (新型爆震动力及组合推进技术)
- Intelligent regulation of engine combustion (发动机燃烧智能调控)
- Intelligent simulation and digital design of aerospace power (空天动力智能仿真与数字化设计)
- Integrated design and optimization of hypersonic combined engines (高超声速组合发动机一体化设计与优化)
- Numerical simulations and engineering application researches (数值仿真与工程应用研究)
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| Summary: |
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- This special session focuses on the cutting-edge technologies of wide-range aerospace combined engines. It is critical to the development of aerospace round-trip vehicles, hypersonic aircraft and the enhancement of aerospace strategic competitiveness. Discussions center on core directions including wide-range combustion organization, thermal protection, detonation combined power, and intelligent simulation and control. Targeting researchers and engineering developers in the aerospace power field, the session aims to gather frontier achievements, exchange technical bottlenecks and innovative solutions, refine research directions, and promote academic interdisciplinary integration and engineering application implementation.
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- 本专题聚焦宽域空天组合发动机前沿技术,关乎空天往返、高超声速飞行器发展与航天战略竞争力提升,围绕宽域燃烧组织、热防护、爆震组合动力与智能仿真控制等核心方向展开研讨。面向空天动力领域科研工作者及工程研发人员,旨在汇聚前沿成果、交流技术瓶颈与创新方案,凝练研究方向、促进学术交叉与工程应用落地。
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