Education background
2008.10-2009.09,Cambridge University, Department of Engineering, Visiting student
2004.09-2010.07,Department of Thermal Engineering, Tsinghua University, PhD
2000.09-2004.07,Department of Thermal Engineering, Tsinghua University, Bachelor
Experience
2014.05-now,Department of Energy and Power Engineering, Assistant Professor
2010.08-2014.03,Tohoku University, Japan, Research Associate
Concurrent Academic
Youth member, Aero-engine and aero-thermodynamics branch, Society of Engineering Thermophysics
Reviewer for a series of academic journals; Reviewer for the National Natural Science Foundation of China
Areas of Research Interests/ Research Projects
1. Flow mechanism of various turbomachinery (gas turbine, steam turbine)
2. Adjoint theory and adjoint optimization
3. Turbulence mechanism and turbulence modeling for internal flow
4. External flow and coupling between internal/external flow
Research Status
1. PI, National Natural Science Foundation of China project, 2019-2022
2. PI, National Natural Science Foundation of China project, 2019-2021
3. PI, National Natural Science Foundation of China project, 2016-2018
Honors And Awards
1. Outstanding reviewer, Journal of Thermal Science, 2020
2. Distinguished Paper Award, Turbine Conference of the Chinese Society of Power Engineering, 2020
3. First Prize, Thermal Engineering and Power Technology Conference, Society of Engineering Thermophysics, 2018
4. Distinguished Paper Award, Turbine Conference of the Chinese Society of Power Engineering, 2018
5. Distinguished Paper Award, Turbine Conference of the Chinese Society of Power Engineering, 2016
Academic Achievement
For more information, please check: https://www.researchgate.net/profile/Xinrong-Su
1. Zhen Zhang, Hui Li, Xinrong Su, Xin Yuan, In-hole characteristic interface and film cooling interface model, Journal of Turbomachinery
2. Ziyu Chen, Yifei Li, Xinrong Su, Xin Yuan, Scalar diffusion equation based model to predict 2-D film cooling effectiveness of a shaped hole, Journal of Turbomachinery
3. Ziyu Chen, Xinrong Su, Xin Yuan, Cooling performance of the endwall vertical hole considering the interaction between cooling jet and leading-edge-horseshoe vortex, Journal of Thermal Science, 2020
4. Qingsong Wang, Xinrong Su, Xin Yuan, Large-eddy simulation of shaped hole film cooling with the influence of cross flow, International Journal of Turbo and Jet Engines, 2020
5. Qingsong Wang, Can Ma, Xinrong Su, Xin Yuan, Effect of unsteady secondary vortices on the performance of a 1.5-stage high-pressure turbine, Journal of Thermal Science, 2020
6. Zhen Zhang, Can Ma, Xinrong Su, Xin Yuan, Accuracy and efficiency assessment of harmonic balance method for unsteady flow in multi-stage turbomachinery, Journal of Thermal Science, 2020, 29: 1569-1580.
7. Hao Zhang, Qingsong Wang, Ziyu Chen, Xinrong Su, Xin Yuan, Effects of compound angle on film cooling effectiveness considering endwall lateral pressure gradient, Aerospace Science and Technology, 2020, 103: 105923
8. Xiutao Bian, Qingsong Wang, Xinrong Su, Xin Yuan, Interaction mechanism of shock wave with boundary layer and wake in a highly-loaded NGV using hybrid RANS/LES, Chinese Journal of Aeronautics, 2020, 33(1): 149-160
9. Hui Li, Xinrong, Xin Yuan, Entropy analysis of the flat tip leakage flow with Delayed Detached Eddy Simulation, Entropy, 2019, 21(1).
10. Yifei Li, Xinrong Su, Xin Yuan, The effect of mismatching between combustor and HP vanes on the aerodynamics and heat load in a 1-1/2 stages turbine, Aerospace Science and Technology, 2019, 86: 78-92.
11. Hao Zhang, Yifei Li, Ziyu Chen, Xinrong Su, Xin Yuan, Multi-fidelity model based optimization of shaped film cooling hole and experimental validation, International Journal of Heat and Mass Transfer, 2019, 132: 118-129.
12. Ziyu Chen, Zhen Zhang, Yifei Li, Xinrong Su, Xin Yuan, Vortex dynamics based analysis of internal crossflow effect on film cooling performance, International Journal of Heat and Mass Transfer, 2019, 145
13. Xiutao Bian, Qingsong Wang, Ziyu Chen, Xinrong Su, Xin Yuan, Hybrid RANS/LES study of complex turbulence characteristics and flow mechanisms on the highly-loaded turbine endwall, Aerospace Science and Technology, 2019, 94
14. Xinrong Su, Can Ma, Xin Yuan, Adjoint-based geometrically constrained aerodynamic optimization of a transonic compressor stage, Journal of Thermal Science, 2019, 28(5): 850-861.
15. Hongbin Liu, Xinrong Su, Xin Yuan, Accelerating unstructured Large Eddy Simulation solver with GPU, Engineering Computations, 2018, 35(5), 2025-2049.
16. Dun Lin, Xinrong Su, Xin Yuan, The development and mechanisms of the high pressure turbine vane wake vortex, Journal of Engineering for Gas Turbines and Power, 2018, 140(9): 092601.
17. Yang Zhou, Yang Zhang, Xinrong Su, Xin Yuan, The effect of inlet rotating swirl on endwall film cooling for two representative hole arrangements, Chinese Journal of Aeronautics, 2018, 31(5), 1095-1108.
18. Yifei Li, Yang Zhang, Xinrong Su, Xin Yuan, Experimental and numerical investigations of shaped hole film cooling with the influence of endwall cross flow, International Journal of Heat and Mass Transfer, 2018, 120, pp. 42-55.
19. Dun Lin, Xinrong Su, Xin Yuan, DDES analysis of wake vortex related unsteadiness and losses in the environment of HPT stage, Journal of Turbomachinery, 2018, 140(4), 041001.
20. Jinlan Gou, Xinrong Su, Xin Yuan, Adaptive mesh refinement method based Large Eddy Simulation for the flow over circular cylinder at ReD=3900, International Journal of Computational Dynamics, 2018, 32(1): 1-18.
21. Jinlan Gou, Xin Yuan, Xinrong Su, Adaptive mesh refinement method based investigation of the interaction between shock wave, boundary layer and tip vortex in a transonic compressor, Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 2018, 232(4): 694-715.
22. Hao Wang, Dun Lin, Xinrong Su, Xin Yuan, Entropy analysis of the interaction between the corner separation and wakes in a compressor cascade, Entropy, 2017, 19(7), 324.
23. Jinlan Gou, Xin Yuan and Xinrong Su, A high-order element based adaptive mesh refinement strategy for three-dimensional unstructured grid, International Journal for Numerical Methods in Fluids, 2017, 85, pp. 538-560.
24. Xinrong Su, Xin Yuan, Improved corner separation prediction using the quadratic constitutive relation, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2017, 231(7), pp. 618-630.
25. Dun Lin, Xinrong Su and Xin Yuan, Local entropy generation in compressible flow through a high pressure turbine with delayed detached eddy simulation, Entropy, 19(1), 2017.
26. Can Ma, Xinrong Su, Xin Yuan, An efficient unsteady adjoint optimization system for multistage turbomachinery, Journal of Turbomachinery, 2017, 139(1), 011003-011003-12.
27. Jinlan Gou, Yang Zhang, Xinrong Su, Xin Yuan, Numerical investigation on the effects of real industrial bleeding geometry in a high-speed compressor stage, Journal of Mechanical Science and Technology, 2016, 30(11), pp. 5275-5286.
28. Xinrong Su, Accurate and robust Adaptive Mesh Refinement for aerodynamic simulation with multi-block structured curvilinear mesh, International Journal for Numerical Methods in Fluids, 2015, 77(12), pp. 747-766
29. Xinrong Su, Satoru Yamamoto, A new matrix dissipation model for central scheme, International Journal for Numerical Methods in Fluids, 2014, 74(7), pp. 494-514
30. Xinrong Su, Daisuke Sasaki, Kazuhiro Nakahashi, Cartesian mesh with a novel hybrid WENO/meshless method for turbulent flow calculations, Computers and Fluids, 2013, 84(0), pp. 69-86
31. Xinrong Su, Satoru Yamamoto, Kazuhiro Nakahashi, Analysis of a meshless solver for high Reynolds number flow, International Journal for Numerical Methods in Fluids, 2013, 72(5), pp. 505-527
32. Xinrong Su, Daisuke Sasaki, Kazuhiro Nakahashi, On the efficient application of Weighted Essentially Nonoscillatory scheme, International Journal for Numerical Methods in Fluids, 2013, 71(2), pp. 185-207
33. Xinrong Su, Xin Yuan, Implicit solution of time spectral method for periodic unsteady flows, International Journal for Numerical Methods for Fluids, 2010, 63(7), pp. 860-876