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Experiments in Fluids

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01-02-2011 | Research Article

Effect of experimental parameters and image noise on the error levels in simultaneous velocity and temperature measurements using molecular tagging velocimetry/thermometry (MTV/T)

Authors: Jianghua Ke, Douglas Bohl

Published in: Experiments in Fluids | Issue 2/2011

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Abstract

In this work, the effect of experimental parameters on the error levels associated with simultaneous measurement of displacement and temperature using Molecular Tagging Velocimetry/Thermometry (MTV/T) was quantified via simulated images. Images were simulated using Gaussian profile laser lines. Noise was added to the images using a uniform random distribution and a Gaussian random distribution to simulate electronic noise and shot noise, respectively. The results showed that the error levels in the displacement and temperature measurements were inversely related for most experimental parameters including the laser line thickness, fluid temperature and image delay times. It is concluded that the dynamic range of the technique depends on the flow speeds and temperatures and must be determined for each experiment individually. Error levels, for 95% confidence, were found to be better than 0.3°C for temperature and 0.2 pixels for displacement for typical real-world experimental parameters.

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Adrian RJ (2005) Twenty years of particle image velocimetry. Exp Fluids 39:159–169CrossRef

Akino N, Kunugi T, Ueda M, Kurosawa A (1988) Liquid crystal thermometry based on automatic color evaluation and applications to measure turbulent heat transfer. In: Second international symposium transport phenomena in turbulent flows theory, experiment, and numerical simulation, Tokyo

Bohl DG (2002) Experimental study of the 2-d and 3-d structure of a concentrated line vortex. PhD Department of Mechanical Engineering, Michigan State University

Bohl DG, Koochesfahani MM (2004) Molecular tagging velocimetry measurements of axial flow in a concentrated vortex core. Phys Fluids 16:4185–4191CrossRef

Bohl D, Koochesfahani M (2009) Mtv measurements of the vortical field in the wake of an airfoil oscillating at high reduced frequency. J Fluid Mech 620:63–88MATHCrossRef

Bohl DG, Koochesfahani MM, Olson BJ (2001) Development of stereoscopic molecular tagging velocimetry. Exp Fluids 30:302–308CrossRef

Brewster RE, Kidd MJ, Schuh MD (2001) Optical thermometer based on the stability of a phosphorescent 6-bromo-2-naphthol/alpha-cyclodextrin(2) ternary complex. Chem Commun 1134–1135. http://www.rsc.org/delivery/_ArticleLinking/DisplayArticleForFree.cfm?doi=b102156g

Dussault D, Hoess P (2004) Noise performance comparison of iccd with ccd and emccd cameras. In: Infrared systems and photonics technology, Denver, CO

Frenkel A, Sartor MA, Wlodawski MS (1997) Photon-noise-limited operation of intensified ccd cameras. Appl Opt 36:5288–5297CrossRef

Fujisawa N, Adrian RJ, Keane R (1997) Three-dimensional temperature measurement in turbulent thermal convection over smooth and rough surfaces by scanning liquid crystal thermometry. In: International conference on fluid engineering, Tokyo, Japan

Gendrich CP, Koochesfahani MM (1996) A spatial correlation technique for estimating velocity fields using molecular tagging velocimetry (mtv). Exp Fluids 22:67–77CrossRef

Gendrich C, Bohl D, Koochesfahani M (1997a) Whole-field measurements of unsteady separation in a vortex ring wall interaction: AIAA Paper 97-1780

Gendrich CP, Koochesfahani MM, Nocera DG (1997b) Molecular tagging velocimetry and other novel applications of a new phosphorescent supramolecule. Exp Fluids 23:361–372CrossRef

Hill RB, Klewicki JC (1996) Data reduction methods for flow tagging velocity measurements. Exp Fluids 20:142–152CrossRef

Hishida K, Sakakibara J (2000) Combined planar laser-induced fluorescence—particle image velocimetry technique for velocity and temperature fields. Exp Fluids 29:129–140CrossRef

Hu H, Koochesfahani MM (2003) A novel technique for quantitative temperature mapping in liquid by measuring the lifetime of laser induced phosphorescence. J Vis 6:143–153CrossRef

Hu H, Koochesfahani M (2005) The wake behavior behind a heated cylinder in forced and mixed convection regimes. In: ASME summer heat transfer conference, HT 2005, San Francisco, CA

Hu H, Koochesfahani MM (2006) Molecular tagging velocimetry and thermometry and its application to the wake of a heated circular cylinder. Meas Sci Technol 17:1269–1281CrossRef

Hu H, Koochesfahani M, Lum C (2006) Molecular tagging thermometry with adjustable temperature sensitivity. Exp Fluids 40:753–763CrossRef

Huang D, Hu H (2007) Molecular tagging thermometry for transient temperature mapping within a water droplet. Opt Lett 32:3534–3536CrossRef

Keane R, Adrian RJ (1993) Theory and simulation of particle image velocimetry. In: SPIE—the international society for optical engineering

Keane RD, Adrian RJ, Zhang Y (1995) Superresolution particle imaging velocimetry. Meas Sci Technol 6:754–768CrossRef

Koochesfahani M (2000) Special feature: molecular tagging velocimetry. Meas Sci Technol 11:1235–1300CrossRef

Koochesfahani M, Nocera D (2007) Molecular tagging velocimetry. In: Foss J, Tropea C, Yarin A (eds) Handbook of experimental fluid dynamics. Springer, Berlin

Mittal M, Sadr R, Schock HJ, Fedewa A, Naqwi A (2009) In-cylinder engine flow measurement using stereoscopic molecular tagging velocimetry (smtv). Exp Fluids 46:277–284CrossRef

Pringsheim P (1949) Fluorescence and phosphorescence. Interscience Publishers, New York

Raffel M, Willert CE, Kompenhans J (1998) Particle image velocimetry: a practical guide. Springer, Berlin

Robinson GA, Lucht RP, Laurendeau NM (2008) Two-color planar laser-induced fluorescence thermometry in aqueous solutions. Appl Opt 47:2852–2858CrossRef

Sadr R, Klewicki JC (2003) A spline-based technique for estimating flow velocities using two-camera multi-line mtv. Exp Fluids 35:257–261CrossRef

Sakakibara J, Adrian RJ (1999) Whole field measurement of temperature in water using two-color laser induced fluorescence. Exp Fluids 26:7–15CrossRef

Sakakibara J, Adrian RJ (2004) Measurement of temperature field of a rayleigh-benard convection using two-color laser-induced fluorescence. Exp Fluids 37:331–340CrossRef

Schroeder A (2008) Particle image velocimetry: new developments and recent applications, 1st edn. Springer, New York

Thompson SL, Maynes D (2001) Spatially resolved temperature measurements in a liquid using laser induced phosphorescence. J Fluid Eng 123:293–302CrossRef

Wiberg R, Lior N (2004) Temperature measurements using thermochromic liquid crystals. J Heat Transf Trans ASME 126:503CrossRef

Zheng QX, Klewicki JC (2000) A fast data reduction algorithm for molecular tagging velocimetry: the decoupled spatial correlation technique. Meas Sci Technol 11:1282–1288CrossRef

Title: Effect of experimental parameters and image noise on the error levels in simultaneous velocity and temperature measurements using molecular tagging velocimetry/thermometry (MTV/T)
Authors: Jianghua Ke
Douglas Bohl
Publication date: 01-02-2011
Publisher: Springer-Verlag
Published in: Experiments in Fluids / Issue 2/2011
Print ISSN: 0723-4864
Electronic ISSN: 1432-1114
DOI: https://doi.org/10.1007/s00348-010-0952-7

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