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[Seminar] Application of MTV to wall bounded turbulent flows
September 8 @ 4:00 pm - 5:00 pm
Dr. Philippe M. Bardet
Mechanical and Aerospace Engineering
The George Washington University
This seminar will present the application of molecular tagging velocimetry (MTV) for measuring instantaneous wall shear stress in high-Reynolds number wall-bounded flows. MTV is the molecular equivalent of particle image velocimetry (PIV). It is a non-intrusive, spectroscopic technique that relies on tracking patterns generated by minute amount of uniformly distributed molecular tracers: the tracked patterns are continuous, making them ideal for directly probing local velocity gradients (and wall shear stress). High-Reynolds number flows in numerous contexts (thermal hydraulics, naval hydrodynamics, etc) have typical viscous wall units on the order of micrometers. Experimental data near those scales are therefore necessary to advance numerical models for those applications.
Despite its limited spatial resolution, MTV is a well-established technique for high-speed gas dynamics. However, in water the technique has also long suffered from poor temporal resolution and the need for specialized lasers and chemicals. With the recent introduction of the Talbot-effect structured-illumination (TESI), MTV patterns as fine as 10 μm have been demonstrated, resulting in an increase in spatial resolution of one more than order of magnitude. Additionally, MTV in aqueous environment has advanced thanks to an efficient and prompt photobleaching approach. It now relies in PIV lasers and is on par with PIV for the temporal resolution. Time-resolved wall shear stress measurements will be presented in a turbulent channel flow (Reτ = 800 & 1,200). Following the latest development in computational imaging, TESI microscopic-MTV has been extended to volumetric (3D) measurements, which enables the distributed measurement of instantaneous wall shear stress over complex surfaces. Other applications of TESI-based diagnostics will also be presented.
Dr. Bardet is a Professor in Mechanical and Aerospace Engineering at the George Washington University. His current research is focused on developing instrumentation and acquiring data for bettering understanding of physical processes and for advancing and validating high-fidelity CFD. His research group is currently developing non-intrusive laser diagnostics for measuring water vapor temperature, dissolved gas concentration, as well as velocimetry techniques, both seedless and particle based. Notably, Dr. Bardet’s group has advanced Molecular Tagging Velocimetry to measure wall shear stress directly in high-Reynolds number flows. Dr. Bardet and his group are focused on fluid-structure interactions, mass transfer and dynamics at liquid gas interfaces, and 3D turbulent boundary layers. He has led several on-situ experimental campaigns where his team instrumented large experimental facilities with custom diagnostics developed in his laboratory. Dr. Bardet teaches courses in Fluid Mechanics, Thermodynamics, Experimental Methods, and Optics.
Thursday, September 8. 2022
4:00 pm seminar
Hybrid Option (Speaker is in person)
zoom (link upon request)
Room 1202 Burlington Labs