1. The inverse design and three-dimensional analysis of double design points basic flow field based on wide range capture ability, Aerospace Science and Technology, SCI Q1, 2025.
2. An efficient diffusion transformer-based method for reconstructing three-dimensional turbulent flows from two-dimensional observations, Physics of Fluids, SCI Q1, 2025.
3. Conceptual design methodology and performance evaluation of inward-turning TBCC inlet with twin-design points, Aerospace Science and Technology, SCI Q1, 2024.
4. Analytical reconstruction of axisymmetric curved shock wave/boundary layer interactions, Physics of Fluids, SCI Q1, 2024.
5. Fully appreciating the impossibility of shock wave regular reflection from the axis of symmetry in axisymmetric internal flows, Physics of Fluids, SCI Q1, 2024.
6. Machine learning-based backpressure unstart prediction and warning method for combined cycle engine hypersonic inlet-oriented wide speed range, International Journal of Aerospace Engineering, SCI Q3, 2024.
7. Reflection and transition of planar curved shock waves, Journal of Fluid Mechanics, SCI Q1, 2023.
8. Mach reflection of three-dimensional curved shock waves on V-shaped blunt leading edges, Journal of Fluid Mechanics, SCI Q1, 2023.
9. Analytical model for predicting the length scale of shock/boundary layer interaction with curvature, Physics of Fluids, SCI Q1, 2023.
10. Analytical model for curved-shock Mach reflection, Physics of Fluids, SCI Q1, 2023.
11. The cluster design and redox behavior characterization of polyoxometalates for redox flow batteries, Chemistry An Asian Journal, SCI Q2, 2022.
12. Method of curved-shock characteristics with application to inverse design of supersonic flow fields, Journal of Fluid Mechanics, SCI Q1, 2021.
13. Second-order curved shock theory, Journal of Fluid Mechanics, SCI Q1, 2020.
14. Local-turning osculating cones method for waverider design, AIAA Journal, SCI Q2, 2020.
15. Multiple osculating cones' waverider design method for ruled shock surfaces, AIAA Journal, SCI Q2, 2020.
16. 朱呈祥等,基于三维弯曲激波组合进气道反设计方法,202111180283.9,发明专利。
17. 朱呈祥等,三维内转消膨胀波高性能双通道TBCC进气道设计方法,202010609419.2,发明专利。
18. 朱呈祥等,一种考虑次流系统的吸气式超燃冲压发动机设计方法,202210656910.X,发明专利。
19. 朱呈祥等,基于双入射弯曲激波的宽速域进气道设计方法,2021104289078,发明专利。
20. 朱呈祥等,基于圆锥前体激波的前掠内乘波进气道一体化设计方法,2018113778599,1. The inverse design and three-dimensional analysis of double design points basic flow field based on wide range capture ability, Aerospace Science and Technology, SCI Q1, 2025.
2. An efficient diffusion transformer-based method for reconstructing three-dimensional turbulent flows from two-dimensional observations, Physics of Fluids, SCI Q1, 2025.
3. Conceptual design methodology and performance evaluation of inward-turning TBCC inlet with twin-design points, Aerospace Science and Technology, SCI Q1, 2024.
4. Analytical reconstruction of axisymmetric curved shock wave/boundary layer interactions, Physics of Fluids, SCI Q1, 2024.
5. Fully appreciating the impossibility of shock wave regular reflection from the axis of symmetry in axisymmetric internal flows, Physics of Fluids, SCI Q1, 2024.
6. Machine learning-based backpressure unstart prediction and warning method for combined cycle engine hypersonic inlet-oriented wide speed range, International Journal of Aerospace Engineering, SCI Q3, 2024.
7. Reflection and transition of planar curved shock waves, Journal of Fluid Mechanics, SCI Q1, 2023.
8. Mach reflection of three-dimensional curved shock waves on V-shaped blunt leading edges, Journal of Fluid Mechanics, SCI Q1, 2023.
9. Analytical model for predicting the length scale of shock/boundary layer interaction with curvature, Physics of Fluids, SCI Q1, 2023.
10. Analytical model for curved-shock Mach reflection, Physics of Fluids, SCI Q1, 2023.
11. The cluster design and redox behavior characterization of polyoxometalates for redox flow batteries, Chemistry An Asian Journal, SCI Q2, 2022.
12. Method of curved-shock characteristics with application to inverse design of supersonic flow fields, Journal of Fluid Mechanics, SCI Q1, 2021.
13. Second-order curved shock theory, Journal of Fluid Mechanics, SCI Q1, 2020.
14. Local-turning osculating cones method for waverider design, AIAA Journal, SCI Q2, 2020.
15. Multiple osculating cones' waverider design method for ruled shock surfaces, AIAA Journal, SCI Q2, 2020.
16. 朱呈祥等,基于三维弯曲激波组合进气道反设计方法,202111180283.9,发明专利。
17. 朱呈祥等,三维内转消膨胀波高性能双通道TBCC进气道设计方法,202010609419.2,发明专利。
18. 朱呈祥等,一种考虑次流系统的吸气式超燃冲压发动机设计方法,202210656910.X,发明专利。
19. 朱呈祥等,基于双入射弯曲激波的宽速域进气道设计方法,2021104289078,发明专利。
20. 朱呈祥等,基于圆锥前体激波的前掠内乘波进气道一体化设计方法,2018113778599,发明专利。
1. 2024.05-2025.09,XXX机理及匹配方法,课题负责人。
2. 2024.01-2027.12,基于复合曲率的三维弯曲激波边界层干扰及其调控,项目负责人。
3. 2023.10-2024.10,XXX耦合机理及控制方法研究,课题负责人。
4. 2023.03-2023.12,飞发控制一体化技术半物理验证环境建设,课题负责人。
5. 2022.10-2025.09,XXX感知研究,课题负责人。
6. 2022.01-2023.12,XXX涵道系统设计,项目负责人。
7. 2020.12-2022.12,进气道次流引气管路设计及梯级利用方法研究,项目负责人。
8. 2020.08-2023.08,复合失稳干扰下内转式组合进气道的协同控制机制,项目负责人。
9. 2020.04-2020.12,并联TBCC内转进气道流动干扰机理及适用范围研究,项目负责人。
1. 福建省青年拔尖人才计划,2024。
2. 厦门大学柳玉滨青年科研奖,2022。
3. 教育部技术发明一等奖,第二,2020。
4. 福建省科技进步一等奖,第二,2019。
