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Experiments in Fluids
Published in: Experiments in Fluids 4/2019

01-04-2019 | Research Article

A method for volumetric visualization of temperature distribution: three-dimensional meshed infrared thermography

Authors: Özgün Özer, Dilek Kumlutaş, Utku Alp Yücekaya

Published in: Experiments in Fluids | Issue 4/2019

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Abstract

In this study, a method called three-dimensional meshed infrared thermography (3D MIT) was developed to visualize the volumetric temperature of air using an infrared camera. The main operating principle of the proposed method is to image the spheres using an infrared camera and processing the images with computer software to obtain the volumetric temperature distribution. For the correct implementation of the method, an equation is proposed to determine the distance between the thermal target and the measurement target placed in the flow to be examined. The proposed method was compared with conventional measurement screen methods, namely those using a plane target and a high-porosity target, via particle image velocimetry (PIV) in terms of flow effects. The temperature measurement capability of the proposed method is presented in comparison with the results of thermocouple and conventional measurement screen-based measurements recorded using a jet flow. In addition, the volumetric temperature isosurfaces obtained via the 3D MIT method of a jet flow were compared with the volumetric velocity isosurfaces obtained via the PIV method in terms of the flow structure.

Graphical abstract

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Literature
Adrian RJ (2005) Twenty years of particle image velocimetry. Exp Fluids 39:159–169CrossRef
Adrian RJ, Westerweel J (2011) Particle image velocimetry. Cambridge University Press, CambridgeMATH
Anderson R, Hassani V, Kirkpatrick A (1991) Visualizing the air flow from cold air ceiling jets. ASHRAE J 33:30–35
Arlit M, Partmann C, Schleicher E, Schuster C, Hurtado A, Hampel U (2018) Instrumentation for experiments on a fuel element mock-up for the study of thermal hydraulics for loss of cooling or coolant scenarios in spent fuel pools. Nucl Eng Des 336:105–111CrossRef
Bruchhausen M, Guillard F, Lemoine F (2005) Instantaneous measurement of two-dimensional temperature distributions by means of two-color planar laser induced fluorescence (PLIF). Exp Fluids 38:123–131CrossRef
Burch SD, Hassani V, Penney TR (1992) Use of infrared thermography for automotive climate control analysis. National Renewable Energy Laboratory, Warrendale
Cehlin M, Moshfegh B, Sandberg M (2002) measurements of air temperatures close to a low-velocity diffuser in displacement ventilation using an infrared camera. Energy Build 34:687–698CrossRef
Dabiri D (2009) Digital particle image thermometry/velocimetry: a review. Exp Fluids 46:191–241CrossRef
Eck B (1973) Design and operation of centrifugal, axial flow and cross flow fans. Pergamon Press, Oxford
Einecke S, Schulz C, Sick V (2000) Measurement of temperature, fuel concentration and equivalence ratio fields using tracer LIF in IC engine combustion. Appl Phys B 71:717–723CrossRef
Elvsén P, Sandberg M (2009) Buoyant jet in a ventilated room: velocity field, temperature field and air flow patterns analysed with three different whole-field methods. Build Environ 44:137–145CrossRef
Gallo M, Kunsch JP, Rösgen T (2010) A Novel Infrared Thermography (IRT) Based Experimental Technique for Distributed Temperature Measurements in Hot Gas Flows. 10th International Conference on Quantitative Infrared Thermography, Quebec
Hirasawa K, Kojima H, Tomimura T (2015) Proposal of simple measurement method for peak detection capability of microscopic area by infrared thermograph. Transactions of the Japan Institute of Electronics Packaging, 8–1
Incropera FP, DeWitt DP (1996) Fundamentals of heat and mass transfer (Fourth Edition b.). Wiley, New York
Jacobson RE (1978) The Manual of photography: Formerly the Ilford manual of photography (Seventh Edition). Focal Press, London
Karadeniz ZH, Kumlutaş D, Özer Ö (2013) Experimental visualization of the flow characteristics of the outflow of a split air conditioner indoor unit by meshed infrared thermography and stereo particle image velocimetry. Exp Therm Fluid Sci 44:334–344CrossRef
Kelm S, Ritterath M, Prasser HM, Allelein HJ (2016) Application of the MiniPanda test case ‘erosion of a stratified layer by a vertical jet’ for CFD validation. Nucl Eng Des 299:124–135CrossRef
Lazzarotto L, Lazzarotto A, Martegani AD (2001) On cross-flow fan similarity: effects of casing shape. J Fluids Eng 123:523–531CrossRef
Lomperski S, Gerardi C, Lisowski D (2016) Fiber optic distributed sensors for high-resolution temperature field mapping. J Vis Exp 117:54076
Miles R, Lempert W (1990) Two-dimensional measurement of density, velocity, and 25 temperature in turbulent high-speed air flows by UV Rayleigh scattering. Appl Phys B Photophysics Laser Chem 51:1–7CrossRef
Minkina W, Dudzik S (2009) Infrared thermography: errors and uncertainties. Wiley, West SussexCrossRef
Neely AJ (2008) Mapping temperature distributions in flows using radiating high-porosity meshes. Exp Fluids 45:423–433CrossRef
Neto LP, Gamerio Silva MC, Costa JJ (2006) On the use of infrared thermography in studies with air curtain devices. Energy Build 38:1194–1199CrossRef
Özer Ö, Kumlutaş D (2017) Experimental investigation on cross flow fan’s casing parameters inside of a split air conditioner indoor unit by Stereo Particle Image Velocimetry. Appl Therm Eng 124:1233–1246CrossRef
Raffel M, Willert C, Wereley S, Kompenhans J (2007) Partical image velocimetry: a practical guide, 2nd. edn. Springer, Berlin
Ritterath M, Öztürk OC, Prasser HM (2011) Thermo-resistive mesh sensors (TMS) for temperature field measurements. Flow Meas Instrum 22(4):343–349CrossRef
Sakakibara J, Adrian RJ (1999) Whole field measurement of temperature in water using two-color laser induced fluorescence. Exp Fluids 26:7–15CrossRef
Schafer T, Schubert M, Hampel U (2013) Temperature grid sensor for the measurement of spatial temperature distributions at object surfaces. Sensors 13(2):1593–1602CrossRef
Vinnichenko N, Plaksina Y, Yakimchuk O, Soldatenkova K, Uvarov A (2016) Air flow temperature measurements using infrared thermography. Quant InfraRed Thermogr J 1–15
Metadata
Title
A method for volumetric visualization of temperature distribution: three-dimensional meshed infrared thermography
Authors
Özgün Özer
Dilek Kumlutaş
Utku Alp Yücekaya
Publication date
01-04-2019
Publisher
Springer Berlin Heidelberg
Published in
Experiments in Fluids / Issue 4/2019
Print ISSN: 0723-4864
Electronic ISSN: 1432-1114
DOI
https://doi.org/10.1007/s00348-019-2704-7

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