University at Buffalo: Mechanical and Aerospace Engineering

Hui Meng, Ph.D.

-Professor

Office: 324 Jarvis Hall

Telephone: (716)645-2593 x2354

FAX:(716)645-2883

Email

Educational Background

COMPLETE C.V.

Research Area:	Biomedical Engineering Hemodynamics and vascular biomechanics Advanced laser flow diagnostics Computational fluid dynamics
Other:	RESEARCH LAB Class Web Page(s): - MAE431 - Energy Systems - MAE478/578 - Cardiovascular Biomechanics Current Projects: "Hemodynamic Intervention of Intracranial Aneurysm", National Institutes of Health/NINDS (1 K25 NS047242-01), 02/01/04-01/31/08, Principle Investigator: H. Meng "Microradidographic Guidance of Flow Modifying Stents, National Institutes of Health NIBIB (1R01 EB002873-01), 09/20/03-07/31-08, PI: Stephen Rudin, Co-I's: H. Meng, D. Bednarek, K. Hoffman, L. N. Hopkins, L. Guterman "Understanding and Characterization of Hemodynamics in Non-stented and Stented Cerebral Aneurysms", National Science Foundation (Bioengineering Div), 6/2003-6/2006, Principle Investigator: H. Meng, Co-PI's: Dale Taulbee, L.N. Hopkins "New York Environmental Quality Systems Center", NYSTAR, (Lead Institution: Syracuse University) PI: Ezzat Khalifa, UB Co-I's: H. Meng, Bob Baier, Lisa Stephan "Holographic Measurement of Particle-Turbulence Interaction in Isotropic Turbulence", National Science Foundation, 2001-2004, Principle Investigator: H. Meng Note: Please Note: Freshmen who have Dr. Meng as their mentor can meet with her during the regular office hours listed above or on Wednesdays from 3:30-4:00pm
Selected Papers, Publications, & Presentations:	Y. Hoi, H. Meng, S. Woodward, L. Guterman, B. Bendok, R. Hanel, and L. Hopkins, "Aneurysm Growth as a Function of Arterial Geometry: Results of a three-dimensional computational fluid dynamics study", J. Neurosurgery (in revision) C. N. Ionita, A. S. Mulay, S. Rudin, H. Meng, "Particle image velocimetry (PIV) evaluation of flow modification in aneurysm phantoms using asymmetric stents, Physiology, Function, and Structure from Medical Images, A. A. Amini and A. Manduca (editors), Proceedings of SPIE Vol. 5369 (2004). S. Rudin, Z Wang, I Kyprianou, KR Hoffmann, Y Wu, H Meng, LR Guterman, B Nemes, DR Bednarek, LN Hopkins, "Optical measurement of flow modification in coiled and stented aneurysm models", Radiology 230, (in press) (2004). S. Dong and H. Meng, "Flow Past a Trapezoidal Tab", J. Fluid Mech. (accepted) (2004). H. Meng, G. Pan, Y. Pu, and S. Woodward "Holographic Particle Image Velocimetry: From Film to Digital Recording", Measurement Science & Technology 15, (in press), (2004). Y. Pu and H. Meng, "Intrinsic speckle noise in off-axis particle holography", J. Opt. Soc. Am. A 21, (in press) (2004). G. Pan and H. Meng, "Digital Holography of Particle Fields: Reconstruction using Complex Amplitude", Applied Optics, 42, 827-833 (2003). Y. Pu and H. Meng, "Intrinsic aberrations due to Mie scattering in particle holography", J. Opt. Soc. Am. A, 20, No. 10 (2003). S. Dong, H. Meng and R. O. Fox, "Application of fractional-step scheme and finite volume method for simulating the flow past a surface-mounted mixing tab", Numerical Heat Transfer A, 41, 469-490 (2002). W. Jia, B. W. Jones, M. H. Hosni and H. Meng, "Data Processing of large-scale particle image velocimetry measurement around the human body", ASHRAE Transactions, 108, Part 1 (2002). G. Pan and H. Meng, "An experimental study of turbulent mixing in a tee mixer using PIV and PLIF", AIChE Journal, 47, 2653-2665 (2001). W. Yang, H. Meng and J. Sheng, "Dynamics of hairpin vortices generated by a mixing tab in a channel flow", Experiments in Fluids, 30, 705-722 (2001). S. Dong and H. Meng, "Chebyshev spectral method and Chebyshev noise processing procedure for vorticity calculation in the post-processing of PIV data", Experimental Thermal and Fluid Sciences, 24, 47-59 (2001). Y. Pu, X. Song and H. Meng, "Off-axis holographic particle image velocimetry for diagnosing particulate flows", Experiments in Fluids 29, S117-S128 (2000). Y. Pu and H. Meng, "An advanced off-axis holographic particle image velocimetry system", Experiments in Fluids, 29, 184-197 (2000). J. Sheng, H. Meng, and R. O. Fox, "A large eddy PIV method for turbulence dissipation rate estimation", Chemical Engineering Science, 55, 4423-4434 (2000).