个人履历 Brief CV

▶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.

▶An efficient diffusion transformer-based method for reconstructing three-dimensional turbulent flows from two-dimensional observations, Physics of Fluids, SCI Q1, 2025.

▶Conceptual design methodology and performance evaluation of inward-turning TBCC inlet with twin-design points, Aerospace Science and Technology, SCI Q1, 2024.

▶Analytical reconstruction of axisymmetric curved shock wave/boundary layer interactions, Physics of Fluids, SCI Q1, 2024.

▶Fully appreciating the impossibility of shock wave regular reflection from the axis of symmetry in axisymmetric internal flows, Physics of Fluids, SCI Q1, 2024.

▶ 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.

▶Reflection and transition of planar curved shock waves, Journal of Fluid Mechanics, SCI Q1, 2023.

▶Mach reflection of three-dimensional curved shock waves on V-shaped blunt leading edges, Journal of Fluid Mechanics, SCI Q1, 2023.

▶Analytical model for predicting the length scale of shock/boundary layer interaction with curvature, Physics of Fluids, SCI Q1, 2023.

▶Analytical model for curved-shock Mach reflection, Physics of Fluids, SCI Q1, 2023.

▶The cluster design and redox behavior characterization of polyoxometalates for redox flow batteries, Chemistry An Asian Journal, SCI Q2, 2022.

▶Method of curved-shock characteristics with application to inverse design of supersonic flow fields, Journal of Fluid Mechanics, SCI Q1, 2021.

▶Second-order curved shock theory, Journal of Fluid Mechanics, SCI Q1, 2020.

▶Local-turning osculating cones method for waverider design, AIAA Journal, SCI Q2, 2020.

▶Multiple osculating cones' waverider design method for ruled shock surfaces, AIAA Journal, SCI Q2, 2020.