* 代表通讯作者
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[26] |
S. Wang, F.Y. Zuo*. XXXXXXX. To be submit. |
|
[25] |
Y. Shen, F.Y. Zuo*. XXXXXXX. To be submit. |
|
[24] |
J. Wei, F.Y. Zuo*. XXXXXXX. To be submit. |
|
[23] |
F.Y. Zuo*, Y. Shen, J. Wei, S. Hu. Reynolds number and Mach number effects on the shock-induced separation. AIAA Journal. 2024, 62(4): 1618-1625. |
|
[22] |
F.Y. Zuo*, A. Memmolo, S. Pirozzoli. On wall pressure fluctuations in conical shock wave/turbulent boundary layer interaction. Journal of Fluid Mechanics. 2023, 967, A3. |
|
[21] |
F.Y. Zuo*. Hypersonic conical shock-wave/turbulent-boundary-layer interaction at high Reynolds number. AIAA Journal. 2023, 61(9): 3743-3760. |
|
[20] |
F.Y. Zuo*, S. Mölder. Design of hypersonic wavecatcher intake at Mach 12 with rectangular-to-elliptical shape transition. Propulsion and Power Research. 2023, 12(2): 167-179. |
|
[19] |
F.Y. Zuo*. Hypersonic shock wave/turbulent boundary layer interaction over a compression ramp. AIAA Journal. 2023, 61(4): 1579-1595. |
|
[18] |
F.Y. Zuo*, M. Yu, S. Pirozzoli. Modal analysis of separation bubble unsteadiness in conical shock-wave/turbulent-boundary-layer interaction. AIAA Journal. 2022, 60(9): 5123-5135. |
|
[17] |
F.Y. Zuo*, J. Wei, S. Hu, S. Pirozzoli. Effects of wall temperature on hypersonic impinging shock wave/turbulent boundary layer interactions. AIAA Journal. 2022, 60(9): 5109-5122. |
|
[16] |
F.Y. Zuo*, S. Mölder. Startability of truncated hypersonic wavecatcher intake. Acta Astronautica. 2022, 198: 531-540. |
|
[15] |
F.Y. Zuo*, S. Mölder, S. Hu. Thermochemical non-equilibrium effects on hypersonic wavecatcher intake at Mach 12. Acta Astronautica. 2022, 198: 56-68. |
|
[14] |
F.Y. Zuo*, S. Mölder. Flow quality in an M-Busemann wavecatcher intake. Aerospace Science and Technology. 2022, 121: 107376. |
|
[13] |
F.Y. Zuo*, A. Memmolo, S. Pirozzoli. Reynolds-averaged numerical simulations of conical shock-wave/boundary-layer interactions. AIAA Journal. 2021, 59(5): 1645-1659. |
|
[12] |
F.Y. Zuo*. The scaling of separation bubble in the conical shock wave/turbulent boundary layer interaction. Acta Astronautica. 2021, 186: 418-425. |
|
[11] |
F.Y. Zuo*, S. Hu. Thermochemical non-equilibrium effects on aerothermodynamic prediction of laminar double-cone flow. Acta Astronautica. 2021, 182: 179-188. |
|
[10] |
F.Y. Zuo*, S. Mölder, G. Chen. Performance of wavecatcher intakes at angles of attack and sideslip. Chinese Journal of Aeronautics. 2021, 34(7): 244-256. (Editor’s Highlights) |
|
[9] |
F.Y. Zuo*, A. Memmolo. Investigation of conical shock wave/boundary layer interaction in axisymmetric internal flow. Aerospace Science and Technology. 2020, 106: 106106. |
|
[8] |
F.Y. Zuo*, A. Memmolo, G. Huang, S. Pirozzoli. Direct numerical simulation of conical shock wave-turbulent boundary layer interaction. Journal of Fluid Mechanics. 2019, 877: 167-195. (Featured on cover) |
|
[7] |
F.Y. Zuo*, S. Mölder. Hypersonic wavecatcher intakes and variable-geometry turbine based combined cycle engines. Progress in Aerospace Sciences. 2019, 106: 108-144. (Invited Review) |
|
[6] |
F.Y. Zuo*, G. Huang. Numerical investigation of bleeding control method on section-controllable wavecatcher intakes. Acta Astronautica. 2018, 151: 572-584. |
|
[5] |
F.Y. Zuo*, G. Huang, C. Xia. Bleeding control for improving internal waverider inlet self-starting ability. International Journal of Turbo & Jet-Engines. 2019, 36(1): 51-60. |
|
[4] |
G. Huang, F.Y. Zuo*, W. Qiao. Design method of internal waverider inlet under non-uniform upstream for inlet/forebody integration. Aerospace Science and Technology. 2018, 74: 160-172. |
|
[3] |
F.Y. Zuo*, G. Huang, C. Xia. Investigation of internal-waverider-inlet flow pattern integrated with variable-geometry for TBCC. Aerospace Science and Technology. 2016, 59: 69-77. |
|
[2] |
左逢源*. 内转式TBCC组合动力进气道设计方法研究进展. 清华大学学报(自然科学版), 2022, 62 (3): 555-561. |
|
[1] |
左逢源, et.al. 基于内乘波概念的TBCC进气道过渡模态研究. 工程热物理学报, 2015, 36(2): 274-278. |
重要会议
|
[10] |
左逢源, 数值风洞基础科学问题2023研讨会,大连,2023.8 (分会场邀请报告) |
|
[9] |
左逢源, 空气动力学全国重点实验室,绵阳,2023.7 (邀请报告) |
|
[9] |
左逢源, 第十九届全国分离流、漩涡和流动控制会议,西安,2023.7 (口头报告) |
|
[8] |
左逢源, 六校力学及航空宇航论坛,德清,2023.4 (口头报告) |
|
[7] |
左逢源, 第二届空气动力学会议,天津,2023.4 (口头报告) |
|
[6] |
左逢源, 第二十届全国激波与激波管会议, 中科大, 合肥, 2022.7 (分会场邀请报告) |
|
[5] |
左逢源, 第十二届全国流体力学会议, 2022.11 (口头报告) |
|
[4] |
左逢源, 中国力学大会-2021, 2022.11 (口头报告) |
|
[3] |
F.Y. Zuo*, G. Huang, C. Xia, Weiyuan Tang. Investigation of the self-starting ability of an internal waverider inlet for ramjet. 51st AIAA Joint Propulsion Conference. Orlando, FL, United states: AIAA Paper 2015-3748, 2015. |
|
[2] |
F.Y. Zuo*, G. Huang, H. Huang, C. Xia. Analyzing the parent flowfield of inward turning inlet combined with variable-geometry. 52nd AIAA Joint Propulsion Conference. Salt Lake City, UT, United states: AIAA Paper 2016-4574, 2016. |
|
[1] |
F.Y. Zuo*, G. Huang. A preliminary overview analysis on the internal waverider inlets for ramjet. 21st AIAA International Space Planes and Hypersonics Technologies Conference. Xiamen, China: AIAA Paper 2017-2420, 2017. |
(创新港)
