Journal ArticleDOI
Molecular tagging velocimetry and other novel applications of a new phosphorescent supramolecule
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TLDR
Implementation of a two-detector system is described which relaxes the requirement that the initial tagging pattern be known a priori, eliminates errors in velocity estimates caused by variations in the grid pattern during an experiment, and makes it possible to study flows with non-uniform mixtures.Abstract:
The development and applications of a new class of water-soluble compounds suitable for molecular tagging diagnostics are described. These molecular complexes are formed by mixing a lumophore, an appropriate alcohol, and cyclodextrin. Using 1-BrNp as the lumophore, cyclohexanol is determined to be the most effective overall among the alcohols for which data are currently available. Information is provided for the design of experiments based on these complexes along with a less complex method for generating the grid patterns typically used for velocimetry. Implementation of a two-detector system is described which, in combination with a spatial correlation technique for determining velocities, relaxes the requirement that the initial tagging pattern be known a priori, eliminates errors in velocity estimates caused by variations in the grid pattern during an experiment, and makes it possible to study flows with non-uniform mixtures. This detection and analysis combination also solves one of the problems associated with using caged fluorescein to study high-speed flows. In addition to the traditional implementation for velocimetry, novel applications for studying the Lagrangian evolution of both reacting and non-reacting interfaces and obtaining combined passive scalar/velocity measurements are demonstrated.read more
Citations
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Journal ArticleDOI
Micro-Particle Image Velocimetry (microPIV): recent developments, applications, and guidelines.
TL;DR: This review discusses the state of the art of the optical whole-field velocity measurement technique micro-scale Particle Image Velocimetry (microPIV), a useful tool for fundamental research of microfluidic applications in life science, lab-on-a-chip, biomedical research, micro chemical engineering, analytical chemistry and other related fields of research.
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Microscale flow visualization
TL;DR: Advances in microfluidic and nanofluidic technologies have been paralleled by advances in methods for direct optical measurement of transport phenomena on these scales, resulting in a variety of methods for microscale flow visualization.
Journal ArticleDOI
Navier–Stokes revisited
TL;DR: In this article, a revision of Newton's law of viscosity appearing in the role of the deviatoric stress tensor in the Navier-Stokes equation is proposed for the case of compressible fluids, both gaseous and liquid.
Journal ArticleDOI
MTV measurements of the vortical field in the wake of an airfoil oscillating at high reduced frequency
TL;DR: In this article, molecular tagging velocimetry is used to quantify the characteristics of the vortex array (circulation, peak vorticity, core size, spatial arrangement) and its downstream evolution over the first chord length as a function of reduced frequency.
Journal ArticleDOI
High-speed imaging in fluids
TL;DR: This review covers high- Speed imaging basics, by defining criteria for high-speed imaging experiments in fluids and to give rule of thumbs for a series of cases, and summarizes criteria for temporal scale and spatial scale which facilitates the selection of a high- speed imaging system for the application.
References
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Journal ArticleDOI
Pulsatile flow through constricted tubes: an experimental investigation using photochromic tracer methods
TL;DR: Detailed descriptions of the transition to turbulence and of the spatial and temporal variation of the wall shear stress, particularly near the reattachment point, have not been previously reported for pulsatile flow through constricted tubes.
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A spatial correlation technique for estimating velocity fields using molecular tagging velocimetry (MTV)
TL;DR: A direct spatial image correlation technique is presented for estimating the Lagrangian displacement vector from image pairs based on molecular tagging diagnostics that provides significant improvement in measurement accuracy compared to existing approaches for molecular tagging velocimetry (MTV) analysis.
Journal ArticleDOI
Velocity measurements by vibrational tagging and fluorescent probing of oxygen
Richard B. Miles,C. Cohen,John Connors,Philip N. Howard,S. Huang,Edward Markovitz,Gregory Russell +6 more
TL;DR: A new method of instantaneously measuring three-dimensional velocity profiles and structure in air and oxygen using Raman excitation and laser-induced electronic fluorescence to generate a time-gated image of the moving oxygen molecules is reported.
Journal ArticleDOI
A new method for non-disturbing turbulent flow measurements very close to a wall
A.T. Popovich,R. L. Hummel +1 more
TL;DR: In this paper, a flash photolysis method suitable for various non-disturbing turbulent flow measurements very close to a wall of any shape has been developed, where a very dilute solution of 2-(2, 4-dinitro-benzyl)-pyridine in 95 per cent ethyl alcohol is employed.
Journal ArticleDOI
Flow tagging velocimetry in incompressible flow using photo-activated nonintrusive tracking of molecular motion (PHANTOMM)
TL;DR: In this paper, the authors report the development of a new optical flow tagging velocimetry technique for hydrodynamic flows, which utilizes highly water-soluble caged dye Photo-Activated Fluorophores (PAF's) which serve as fluorescent tracers, with essentially indefinite lifetime.