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FACULTY
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Chen, Ye
Positional Title: Associated Professor
Email: yechen@scut.edu.cn
Working For: Shien-Ming Wu School of Intelligent Engineering
Graduated School: Department of Mechanical Engineering, Vanderbilt University
Office: D1-b207
Zip Code: 510640
Final Degree: PhD
Telephone:
Mentor Type: Doctoral Supervisor
Personal profile
Ye Chen received the B.S. Degree in Aerospace Manufacturing Engineering from the Tongji University, China, in 2009, the M.S. Degree in Mechanical Engineering from the Vanderbilt University, United States, in 2019, and the Ph.D. Degree in Mechanical Engineering from the Vanderbilt University, in 2020.
He is currently an associate professor with the Shien-Ming Wu School of Intelligent Engineering, South China University of Technology, Guangzhou, China. His recent research interest includes computational fluid dynamics, fluid-structure interaction, bio-fluid dynamics, low-Reynolds number flows and high performance computing.
Work Experience
From Mar. 2020 to Feb. 2021, Department of Mechanical Engineering, Santa Clara University, Postdoctoral Fellow
From Feb. 2021 to Mar. 2022,California Medical Innovations Institute, Postdoctoral Fellow
From Aug. 2022 to present, Shien-Ming Wu School of Intelligent Engineering, South China University of Technology, Associate Professor
Education
2009 B.S., Tongji University, Aerospace Manufacturing Engineering
2019 M.S., Vanderbilt University, Mechanical Engineering
2020 Ph.D., Vanderbilt University, Mechanical Engineering
Research Interest
Fluid mechanics, Computational fluid dynamics, Fluid-structure interaction, Bio-fluid dynamics, Low-Reynolds-number flows, High performance computing
Courses
Introduction to Engineering, Mechanics of Materials
Selected Publications
2022
1.Chen, Ye, et al. 'Aortic Leaflet Stresses Are Substantially Lower Using Pulmonary Visceral Pleura Than Pericardial Tissue.' Frontiers in Bioengineering and Biotechnology 10 (2022).
2021
1.Chen, Y., Demir, E., Gao, W., Young Y, Pak, O. S. “Wall-induced translation of a rotating particle in a shear-thinning fluid”. Journal of Fluid Mechanics, 927 (2021).
2.Li, Mengtang, et al. 'Design, Modeling, and Experimental Characterization of A Valveless Pulsatile Flow Mechanical Circulatory Support Device.' Journal of Medical Devices 15.2 (2021).
3.Li, Zheng, et al. 'A one-dimensional flow model enhanced by machine learning for simulation of vocal fold vibration.' The Journal of the Acoustical Society of America 149.3 (2021): 1712-1723.
4.Qin, Ke, et al. 'Propulsion of an elastic filament in a shear-thinning fluid.' Soft Matter 17.14 (2021): 3829-3839.
2020
1.Chen, Y., Lordi, N., Taylor, M., Pak, O. S. “Helical locomotion in a porous medium”. Physical Review E, 102(4) 2020.
2.Chen, Y., Li, Z., Chang, S., Rousseau, B., Luo, H. “A reduced-order flow model for vocal fold vibration: from idealized to subject-specific models”. Journal of Fluids & Structures, 94 102940, 2020.
3.Chen, Y., Luo, H. “Pressure distribution over the leaflets and effect of bending stiffness on fluid-structure interaction of the aortic valve”. Journal of Fluid Mechanics, 883, A52, 2020.
4.Nganguia, H., et al. 'A note on a swirling squirmer in a shear-thinning fluid.' Physics of Fluids 32.11 (2020): 111906.
5.Wu Z, Chen Y, Mukasa D, et al. Medical micro/nanorobots in complex media[J]. Chemical Society Reviews, 2020, 49(22): 8088-8112.
2018
1. Chen, Y., Luo, H. “A computational study of the three-dimensional fluid-structure interaction of aortic valve”. Journal of Fluids & Structures, 80, 332-349, 2018.
