學歷

加州理工學院博士, 2002-2006
加州理工學院碩士, 2001-2002
台灣大學機械系學士, 1996-2000

顆粒流、固液二相流、多相流、流固耦合、流變學、工程應用

工程數學上、下

流體力學

熱傳學

黏性流體力學

固液二相流導論

機械工程概論

機械工程量測原理

機械工程實務

國科會

• 【前瞻技術產學合作計畫】低碳鋼鐵冶煉技術開發--低碳鋼鐵冶煉技術開發 114-
• 【一般型/三年期】透過研究力鏈結構隨流場與震動擾動的變化來理解小型顆粒挖掘機的物理與設計突破 114-116
• 【一般型/三年期】透過介觀力鏈結構動態與微觀顆粒轉動行為探討非局部與密度效應以發展潛變顆粒流之運動模型 112-114
• 【雙邊協議專案型國際合作研究計畫/四年期】黏性複雜顆粒流非局部流變模型之整合研究 110-113
• 【開發型產學計畫/二年期】真空冰泥相變材料性能研究與關鍵技術開發 111-112
• 【優青計畫/三年期】濃密顆粒流於流固態相變時非局部本固關係與邊界條件之整合研究 109-111
• 【開發型產學計畫/三年期】由複雜流體模型及非線性固體模型之微觀機制建構壓縮成型之連續體模型及相應數值模擬架構 106-109
• 【優青計畫/三年期】藉實驗及模擬探究微觀機制如何影響濃密顆粒流之本固關係式及邊界條件以推導其統一運動方程式 106-109
• 【台法幽蘭計畫】藉實驗及模擬建構濃密顆粒流之邊界條件模型 107-108

產學計畫

• 機械研磨製程之流場分析 113-114
• 製氫模組流場分析研究 110
• 羽毛分離機制與製程規劃之研究 110
• 氣塵分離研究 110
• 電動機車之馬達控制器殼體設計與熱流分析 108
• 氣霧法製程模擬分析 108
• 加工頭噴嘴氣體噴粉分佈檢測 108
• 金屬粉末氣霧法製程模擬分析 108
• 分注管設計模擬 108
• 疫苗恆溫保存模組技術開發 107
• 清掃車集塵技術開發 107
• 奈米環境之CFD模擬分析 105
•  馬達流量提升及噪音降低之風扇及風罩設計 103-106

1. Y.Y. Chang & F.-L.Yang*, Exploring nonlocality in planar shear granular flows: Insights from perturbation analysis, Physics of Fluids, 37 (12), 2025
2. C.H. Lin, C.-C. Lin, P.C. Lin & F.-L. Yang*, A prototype of a biomimetic scallop robot with bivalve propulsion and a hydrodynamic model for its velocity. Journal of Applied Science and Engineering, 28(8), 1837-1848, 2024
3. H Wu & F.-L. Yang*, Influence of a nearby hemisphere on the immersed on-wall collision dynamics of a sphere. Journal of Mechanics, Special Issue, 40, 759-768, 2024
4. F.-L. Yang, Y.A. Chen, A.R. Premlata & H.H. Wei, “Stick-slip squirmers: slip asymmetry can qualitatively change self-swimming characteristics of squirmers,” Journal of Fluid Mechanics, 976, A29, 2023
5. C.C. Lin, R. Artoni, F.-L. Yang*, P. Richard, “Modeling the wall friction coefficient of a simple shear granular flow in view of the degradation mechanism,” Journal of Fluid Mechanics, 969, A7, 2023
6. Cheng-Ting Tsai, Chih-Ying Cheng, F.-L.Yang*, “Growth of force chain network upon non-Bagnold transition of inclined surface granular flows via discrete element simulation,” Journal of Mechanics, Special Issue, 39, 431-441, 2023
7. K.L. Lee & F.-L. Yang*. Reverse shearing triggers discontinuous shear thickening pattern across erodible granular bed in a Couette-Poiseuille-like flow, Physical Review E, 2022
8. C.C. Lin & F.-L. Yang*, Continuum simulation of non-local effects in a granular silo discharge flow using a regularized µ(I) rheology model, Physics of Fluids, 33, 093302, 2021
9. G.J. Gao, F.-L. Yang, M.C. Holcomb, J. Blawzdziewicz, Enhanced flow rate by the concentration mechanism of Tetris particles when discharged from a hopper with an obstacle. Physical Review E, 103, 062904, 2021 
10. M.Z. Jiang, J. C. Tsai, & F.-L. Yang*, Measurement of boundary force and wall friction coefficient during the development of a granular discharge flow from a symmetric silo. Journal of the Chinese Institute of Engineers, 2021, Vol.44 (4), pp.368-378, 2021 
11. C.C. Lin & F.-L. Yang*, Continuum simulation for regularized non-local µ(I) model of dense granular flows. Journal of Computational Physics, 402(1) 109708, 2020 
12. K.W. Tung, P.S. Chung, C. Wu, T.X. Man, S. Tiwari, B. Wu, Y.F. Chou, F.-L. Yang & P.Y. Chiou, Deep, sub-wavelength acoustic patterning of complex and non-periodic shapes on soft membranes supported by air cavities. Lab on a Chip, 19, 3714, 2019
13. C.C. Lin, F.-L. Yang* & H.T. Huang, A new image processing algorithm for three-dimensional angular velocity measurement and its application in a granular avalanche. Advanced Powder Technology, 29 (3), 506-517, 2018
14. K.L. Lee & F.-L. Yang*, Relaxation-type nonlocal inertial-number rheology for dry granular flows. Physical Review E, 96, 062909, 2017
15. Y.T. Huang, F.-L. Yang*, Indirect measurement of mu(I) relation from finite granular avalanche down an inclined narrow reservoir of smooth bed. Granular Matter, 19:51, 2017
16. G.L. Lee & F.-L. Yang*, “Asymptotic analysis of the propagation and arresting process of a finite dry granular mass down a rough incline,” Journal of Fluid Mechanics 806, 234-253, 2016
17. F.-L. Yang*, Y.T. Huang, “New aspects for friction coefficients of finite granular avalanche down a flat narrow reservoir,” Granular Matter, 18, 77-90, 2016
18. W.L. Luo, F.-L. Yang*, C.S. Chen and S.H. Hsieh, “Studying the weak effect of particle friction on the velocity profile of steady granular flows in a rotating drum,” Granular Matter, 17(6) 717-726 2015
19. F.-L. Yang*, W.T. Chang, Y.T. Huang, S.H. Hsieh, and C.S. Chen “Dry granular avalanche down a flume: choice of discrete element simulation parameters,” Physics of Fluids, 25, 123303, 1-16 2013
20. C.T. Wu, F.-L. Yang*, D. L. Young, “Generalized two-dimensional Lagally theorem with free vortices,” Journal of Fluid Mechanics, 698, 73-92, 2012
21. D.L. Young*, F.-L. Yang and C. T. Wu “On the calculation of two-dimensional added mass coefficients by the Taylor theorem and the method of fundamental solutions,” Journal of Mechanics, 28 (1), 107-112, 2012
22. F.-L. Yang, C.H. Chen & D.L. Young*, A novel mesh regeneration algorithm for 2D FEM simulations of flows with moving boundary. Journal of Computational Physics, 230(8) 3276-3301, 2011
23. F.-L. Yang*, A formula for the wall-amplified added mass coefficient for a solid in normal approach to a wall and its application for such motion at low Reynolds number. Physics of Fluids, 22 123303, 2010 
24. F.-L. Yang & M.L. Hunt*, A mixed contact model for an immersed collision between two solid surfaces. Phil. Trans. R. Soc. A, 2205-2218, 2008
25. F.-L. Yang & M.L. Hunt*, Dynamics of particle-particle collisions in a viscous liquid. Physics of Fluids, 18, 121506 1-11, 2006