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2015 | OriginalPaper | Chapter

Planar, Stereoscopic, and Holographic PIV-Measurements of the In-Cylinder Flow of Combustion Engines

Authors : T. van Overbrüggen, I. Bücker, J. Dannemann, D.-C. Karhoff, M. Klaas, W. Schröder

Published in: Fuels From Biomass: An Interdisciplinary Approach

Publisher: Springer Berlin Heidelberg

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Abstract

The experimental analysis of the highly unsteady three-dimensional flow in internal combustion (IC) engines requires measurement techniques that are able to capture the velocity field with high temporal and spatial resolution. Among other techniques, particle-image velocimetry (PIV) is used to measure the flow in combustion engines. Depending on the specific goal of a measurement series, either standard 2D-2C PIV, stereoscopic PIV (2D/3C) or fully three-dimensional PIV methods (3D/3C) can be used. In this study, the fundamentals of particle-image velocimetry (PIV) are explained in detail, with a special focus on the application of this measurement technique to internal combustion engines. As far as the generation of the particle images is concerned, this paper describes the special characteristics of seeding particles for use in IC engines including the generation process followed by a short introduction into different light sources and light-sheet generation methods. With regard to image acquisition and processing, digital imaging devices and image evaluation methods are described. Moreover, three component two dimensional and three dimensional PIV measurement techniques, namely stereoscopic-PIV and holographic-PIV, are concisely explained. Hereafter, two-component PIV measurements in several planes, three-component-PIV measurements in a set of planes and holographic-PIV measurements in the whole volume of the intake flow of a four valve piston engine at 160° crank angle are analyzed. The results of the stereoscopic PIV measurements show the highly three-dimensional propagation of the engine flow. Furthermore, the feasibility of holographic PIV for the analysis of engine flows is confirmed.

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Arroyo, M.P., Greated, C.A.: Stereoscopic particle image velocimetry. Meas. Sci. Technol. 2, 1181–1186 (1991)CrossRef

Bücker, I., Karhoff, D., Dannemann, J., Pielhop, K., Klaas, M., Schröder, W.: Comparison of piv measured flow structures in two four-valve piston engines. In: Stab2010 (2010)

Born, M.: Optik. Springer, Berlin (1981)

Born, M., Wolf, E.: Principles of Optics. Cambridge University Press, London (1999)CrossRef

Coudert, S., Schon, J.-P.: Back-projection algorithm with misalignment corrections for 2D3C stereoscopic PIV. Meas. Sci. Technol. 12, 1371–1381 (2001)CrossRef

Dannemann, J., Klaas, M., Schröder, W.: Three dimensional flow field within a four-valve combustion engine measured by particle-image velocimetry. In: ISDV 14 (2010)

Dannemann, J., Pielhop, K., Klaas, M., Schröder, W.: Cycle-resolved multi-planar particle-image velocimetry measurements of the in-cylinder flow of a four-valve combustion engine. In: 8th International Symposium on Particle Image Velocimetry—PIV 09 (2009)

Dannemann, J., Pielhop, K., Klaas, M., Schröder, W.: Cycle resolved multi-planar flow measurements in a four-valve combustion engine. Exp. Fluids 50, 961–976 (2010)

Eichler, J., Eichler, H.J.: Laser, Bauformen, Strahlführung. Springer, Anwendungen (1998)

10.

Elsinga, G.E., van Oudheusden, B.W., Scarano, F.: Experimental assessment of tomographic-PIV accuracy. In: 13th International Symposium on Applications of Laser Techniques to Fluid Mechanics (2006)

11.

Estevadeordal, J., Goss, L.: PIV with LED: particle shadow velocimetry (PSV). In: 43rd AIAA Aerospace Sciences Meeting and Exhibit, Meeting Papers (2005)

12.

Gabor, D.: A new microscopic principle. Nature 161, 777–778 (1949)CrossRef

13.

Gaydon, C., Raffel, M., Willert, C., Rosengarten, J., Kompenhans, J.: Hybrid stereoscopic particle image velocimetry. Exp. Fluids 23, 331–334 (1997)CrossRef

14.

Graftieaux, L., Michard, M., Grosjean, N.: Combining PIV, POD and vortex identification algorithms for the study of turbulent swirling flows. Meas. Sci. Technol. 12, 1422–1429 (2001)CrossRef

15.

Große, S., Schröder, W., Klaas, M., Klöckner, A., Roggenkamp, J.: Time resolved analysis of steady and oscillating flow in the upper human airways. Exp. Fluids 42, 955–970 (2007)CrossRef

16.

Grout, I.A.: Integrated Circuit Test Engineering. Springer, London (2006)

17.

Guibert, P., Murat, M., Hauet, B., Keribin, P.: Particle image velocimetry measurements: application to in-cylinder flow for a two stroke engine. SAE Paper 932647 (1993)

18.

Heflinger, L.O., Stewart, G.L., Booth, C.R.: Holographic motion pictures of microscopic plankton. Appl. Opt. 17, 951–954 (1978)CrossRef

19.

Herrmann, S.F.: Three-dimensional optical flow measurements with short coherence holography. Ph.D thesis, Carl von Ossietzky Universität Oldenburg, July 2006

20.

Heywood, J.B.: Internal Combustion Engine Fundamentals. McGraw-Hill, New York (1988)

21.

Huang, R.F., Huang, C.W., Chang, S.B., Yang, H.S., Lin, T.W., Hsu, W.Y.: Topological flow evolutions in cylinder of a motored engine during intake and compression strokes. J. Fluids Struct. 20, 105–107 (2005)CrossRef

22.

Janesick, J.R.: Scientific charge-coupled devices. In: SPIE—The International Society for Optical Engineering (2001)

23.

Konrath, R.: Strömungsanalyse im Zylinder eines 4-Ventil-Motors mit der holographischen Particle-Image Velocimetry. Ph.D thesis, Rheinisch Westfälische Technische Hochschule Aachen (2003)

24.

Konrath, R., Schröder, W., Limberg, W.: Holographic particle image velocimetry applied to the flow within the cylinder of a four-valve internal combustion engine. Exp. Fluids 33, 781–793 (2002)CrossRef

25.

Kreis, T.: Handbook of Holographic Interferometry. Wiley, Weinheim (2005)

26.

Leith, E.N., Upatnieks, J.: Reconstructed wavefronts and communication theory. J. Opt. Soc. Am. 52, 1123–1130 (1962)CrossRef

27.

Li, Y., Zhao, H., Peng, Z., Ladommatos, N.: Particle image velocimetry measurements of in-cylinder flow in internal combustion engines—experiment and flow structure analysis. Proc. Institut. Mech. Eng. 216(Part D), 65–81 (2002)

28.

Milonni, P.W., Eberly, J.H.: Lasers. Wiley, New York (1988)

29.

Prasad, A.K., Adrian, R.: Stereoscopic particle image velocimetry applied to liquid flows. Exp. Fluids 15, 49–60 (1993)CrossRef

30.

Prasad, A.K., Jensen, K.: Scheimpflug stereocamera for particle image velocimetry in liquid flows. Appl. Opt. 34, 7092–7099 (1995)CrossRef

31.

Pu, Y., Meng, H.: An advanced off-axis holographic particle image velocimetry (HPIV) system. Exp. Fluids 29, 184–197 (2000)CrossRef

32.

Raffel, M., Willert, C.E., Wereley, St.T., Kompenhans, J.: Particle Image Velocimetry. Springer, Berlin (2007)

33.

Reuss, D.L., Rosalik, M.: PIV measurements during combustion in a reciprocating internal combustion engine. SAE Technical Paper (1998)

34.

Ruck, B.: Einfluß der Tracerteilchengröße auf die Signalinformation in der Laser-Doppler-Anemometry. Technisches Messen - tm 57, 284–295 (1990)CrossRef

35.

Schröder, F., Klaas, M., Schröder, W.: Multiplane-stereo piv measurements for steady flow in the first two bifurcations of the upper human airways during exhalation. In: Proceedings of the ECCOMAS Thematic International Conference on 043 Simulation and Modeling of Biological Flows (SIMBIO 2011) (2011)

36.

Siegmann, A.E.: Lasers. University Science Books, Sausalito (1986)

37.

Soloff, S.M., Adrian, R., Liu, Z.-C.: Distortion compensation for generalized stereoscopic particle image velocimetry. Meas. Sci. Technol. 8, 1441–1454 (1997)CrossRef

38.

Soodt, T., Schröder, F., Klaas, M., Schröder, W., van Overbrüggen, T.: Experimental investigation into the transitional bronchial velocity distribution using stereoscanning PIV. Exp. Fluids 52(3), 709–718 (2011)

39.

Stansfield, P., Wigley, G., Justham, T., Catto, J., Pitcher, G.: PIV analysis of in-cylinder flow stuctures over a range of realistic engine speeds. Exp. Fluids 43, 135–146 (2007)CrossRef

40.

Svelto, O.: Principles of Lasers. Springer, New York (2009)

41.

Tennekes, H., Lumley, J.L.: A First Course in Turbulence. MIT Press, Cambridge (1972)

42.

Thyagarajan, K., Ghatak, A.: Lasers: Fundamentals and Applications. Springer, Boston (2010)

43.

van de Hulst, H.C.: Light Scattering by Small Particles. Wiley, New York (1957)

44.

van Doorne, C.W.H., Westerweel, J.: Measurement of laminar, transitional and turbulent pipe flow using Stereoscopic-PIV. Exp. Fluids 42, 259–279 (2007)CrossRef

45.

Westerweel, J.: Efficient detection of spurious vectors in particle image velocimetry data. Exp. Fluids 16, 236–247 (1993)

46.

Westerweel, J.: Fundamentals of digital particle image velocimetry. Meas. Sci. Technol. 8, 1379–1392 (1997)CrossRef

47.

Willert, C., Stasicki, B., Moessner, S., Klinner, J.: Pulsed operation of high power light emitting diodes for flow diagnostics. Technical Report, Institute of Propulsion Technology, German Aerospace Center (DLR) (2010)

Title: Planar, Stereoscopic, and Holographic PIV-Measurements of the In-Cylinder Flow of Combustion Engines
Authors: T. van Overbrüggen
I. Bücker
J. Dannemann
D.-C. Karhoff
M. Klaas
W. Schröder
Publisher: Springer Berlin Heidelberg
Book: Fuels From Biomass: An Interdisciplinary Approach
Print ISBN: 978-3-662-45424-4

Electronic ISBN: 978-3-662-45425-1

Copyright Year: 2015
DOI: https://doi.org/10.1007/978-3-662-45425-1_11