Qiuyun Wang, PhD Student
Qiuyun Wang
Ph.D. Student
无码专区
Department of Mechanical Engineering
Cellular Biomechanics and Sports Science Laboratory
College of Engineering
White Hall, Room 205
无码专区, PA 19085
qwang3@villanova.edu
Education
Aug. 2015-present, 无码专区
Doctor of Philosophy, Mechanical Engineering
Research project: Multiscale analysis of fluid dynamic in porous media
Advisor: Dr. Qianhong Wu
Sep. 2012-Mar.2015, Tongji University, Shanghai, China
Master of Engineering, Refrigeration and Cryogenic Engineering
Research project: Modeling and analysis of data center air conditioning system using GREATLAB and FLUENT
Advisor: Prof. Chunlu Zhang
Sep. 2008-Jun. 2012, China Jiliang University, Hangzhou, China
Bachelor of Engineering, Thermal Energy and Power Engineering
Research
Used an integrated experimental and analytical approach to research and analyze the fluid transport in a porous media. Extending the knowledge of fluid mechanics in porous media; exploring the primary functions of the porous structures in biological systems; applying the porous media in the field of tribology and sports sciences
Publications and Presentations
Wang, Q., Schenk, M., Peng, L., Chen, X., Pei, S., Liu, L., and Wang, L. Wu, Q "On the characterization of interstitial fluid flow in the skeletal muscle." In preparation
Wang, Q., Zhu, Z., Nathan, R., and Wu, Q. "On the Study of the Response of Soft Porous Matter to External Impacts Using an Up-scaled Indenter." Physical Review Fluids, Under review
Wang, Q., Nathan, R., and Wu, Q. "On the Fluid Pressurization in Soft Porous Media, a Correction to the Current Theoretical Models." Journal of Porous Media, Accepted.
Zhu, Z., Wang, Q., and Wu Q. "On the Examination of the Darcy Permeability of Fibrous Porous Media; New Correlations." Chemical Engineering Science, 173 (2017): 525-536.
Wu, Q., Santhanam, S., Nathan, R., and Wang, Q. "A biphasic approach for the study of lift generation in soft porous media." Physics of Fluids 29.4 (2017): 043602.
Wang, Q., Sun, L., Zhang, C., "Numerical Simulation on Heat Transfer and Pressure Drop of Louvered Fins with Triangle Corrugated Ruffles." Chinese Journal of Refrigeration Technology. 3 (2015): 19-23