Browse > Article

Measurements of a Round Jet with High-Definition 3D-PTV  

Hwang, Tae-Gyu (Mechanical Engineering, Graduated School of Korea Maritime University)
Doh, Deog-Hee (Division of Mechanical and Information Eng., Korea Maritime University)
Saga Tetsuo (Institute of Industrial Scinece, University of Tokyo)
Kenneth D. Kihm (Mechanical, Aerospace and Biomedical Engineering, University of Tennessee, Knoxville)
Publication Information
Journal of Advanced Marine Engineering and Technology / v.28, no.8, 2004 , pp. 1211-1224 More about this Journal
Abstract
Two round jets. impinged and pulsed. were measured with high-resolution 3D-PTV technique. The measurement system consists of three CCD cameras, Ar-ion laser, an image grabber and a host computer. Two fitness functions were introduced in a genetic algorithm in order to enhance the correspondences of the particles. One was based on a concept of the continuum theory and the other one was based on a minimum distance error. The velocity profiles of the impinged jet obtained by the constructed 3D-PTV system were compared with those of LDV measurements made in this study. The head vortex of the jet was visualized by LIF and was reconstructed by the constructed high-resolution 3D-PTV system for comparisons.
Keywords
Impinged Jet; Pulsed Jet; Genetic Algorithm(GA); 3D-PTV; LDV; LIF;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Nakoryakov. V.E., Pokusaev, B.G., Troyan, E.N., 1978, 'Impingement of an axisymmetic liquid jet on a barrier', International Journal of Heat and Mass Transfer. Vol.21, pp.1175-1184   DOI   ScienceOn
2 Stevens, J., 1992. 'Measurements of local fluid velocities in an axisymmetric. Free liquid jet impinging on a flat flate', Ph.D. Dissertation. Brigham Young University, Provo. UT
3 Bremhorst, K., Hollis, P. G., 1990, 'Velocity field in an axisymmetric pulsed subsonic air jet', AlAA J., Vol.28, No.12, pp.2043-2049
4 Kasagi, N., Nishino, K., 1991, 'Probing turbulence with three dimensional particle tracking velocimetry’, Exp. Thermal and Fluid Sci. Vol.4, pp.601-612
5 Ohyama. R., Takagi. T., Tsukiji. T., Nakanishi. S.. Kaneko. K., 1993, ' Particle tracking technique and velocity measurement of visualized flow fields by means of genetic algorithms', J. of Flow Visualization Soc. Jpn' Vol.13 Suppl. No. 1. pp,22-25
6 Doh, D. H., Kim, D. H., Cho, K. R., Cho, Y. B., Lee, W. J., Saga, T., Kobayashi. T., 2002, 'Development of Genetic Algorithm based 3D-PTV technique, Journal of Visualization, Vol.5, No. 3 pp. 243-254
7 Agui. J.C., Jimenez, J., 1987, 'On the performance of particle tracking', J. Fluid Mech., Vol. 185, pp.447-468
8 Mass. H.G., Gruen. A., Papantoniou, D. A., 1993, 'Particle tracking velocimetry in three-dimensional flows, Part 1 Photogrammetric determination of particle coordinates', Exp. in Fluids, Vol. 15, pp. 133-146
9 Doh. D.H., Kim. D,H., Cho, K.R., Cho, Y.B., Saga. T., Kobayashi. T., 2001, '3D-PTV using Genetic Algorithm', Proc. CD~ROM of 4th International Symposium on PIV, Gottingen, Sep. 17-19, 2001, Paper No, AI050
10 Kiper, A. M., 1984, 'Impinging water jet cooling of VLSI circuits', International Communications in Heat and Mass Transfer, Vol.11, pp.517-52   DOI   ScienceOn
11 Takehara, K., Etoh, T., 1999, 'A study on particle identification in PTV Particle Mask Correlation Method, Journal of Visualization, Vol.1 No.3, pp.313~323
12 Kataoka, K., Mihata, 1.. Maruo, K., Suguro, M.. Chigusa, T., 1986, 'Quasiperiodic large scale structure responsible for the selective enhancement of impinging jet heat transfer' Proceeding of the 8th Int Heat Transfer Conf. Vol. 3. pp.1193-1198
13 Nordsveen, M., Bremhorst, K., 1998. 'Simulations of a fully pulsed round turbulent air jet flow with k-\AA and Reynolds stress turbulence modelsu. Proc. of 13th Australasian Fluid Mechanics Conf., Monash Univ Melbourne. Australia. pp.95-98
14 Lee, J.H., Lee, S.J., 1999, 'Heat transfer enhancement based on nozzle exit configuration of turbulent axisymmetric impinging jet, Proceeding of KSME thermal engineering, pp.122-129
15 Olsson, R. G.. Turkdogan, E.T., 1966, Radial spread of a liquid stream on a horizontal plate, Nature, Vol.211, pp.813-816
16 Doh, D.H., Kim, D.H., Choi, S.H., Hong, S.D., Saga, T., Kobayashi. T., 2000a, 'Single- Frame (Two-Field Image) 3D-PTV for high speed flows', Exp. in Fluid, Suppl., pp,85-98
17 Graham, L. J. W., Bremhorst. K. 1993. 'Application of the k-\AA turbulence model to the simulation of a fully pulsed free air jet'. ASME. J. Fluids Eng.. Vol.115. No.71, pp.70-74
18 Goldberg, D. E., 1985, 'Optimal initial population size for binary-coded genetic algorithm'. TCGA Report No, 85001. University of Alabama
19 Boree, J., Atassi, N., Charnay, G., Taubert. L., 1997 'Measurements and image analysis of the turbulent field in axisymmeric jet subject to a sudden velocity decreaseu. Exp. Thermal and Fluid Sci. Vol. 14 pp .45-51
20 Adrian, R.J., 1991, 'Particle-imaging techniques for experimental fluid mechanics. Ann. Rev. Fluid Mech. Vol.23, pp.261-304
21 Bae. S. T., Kim, D. K., Kim. S. B., An experimental study on flow characteristics of impinging jet'. Journal of the Korean Society of Marine Engineers, Vol. 25. No.2 pp.173-179
22 Yamada, H., Yamane. K., 1995, 'Particle Image Velocimetry using a genetic algorithm. J. of Flow Visualization Soc, Jpn., Vol.15, Supp1. No. 1. pp.165-168
23 Faggiani, S., Grassi, W., 1990a, 'Impin ging Liquid Jets on Heated Surfaces'. Proceedings of the Ninth International Heat Transfer Conference. Vol. 1, pp.275-285
24 Nishino, K., Kasagi, N., Hirata, M., 1989, 'Three-dimensional particle tracking velocimetry based on automated digital image processing', ASME J. Fluids Eng., Vol.111. No.4, pp.384-391   DOI
25 Hwang. S.D., Lee. C.H., Cho. H. H., 1999. 'An Experimental study on flow and heat transfer characteristics of circular impinging jet with acoustic excitation'. Proceeding of KSME thermal engineering. pp.122-129
26 Yamamoto, H., Udagawa, Y., Suzuki, M., 1987, 'Cooling System for FACOM M-780 Large-Scale Computer', Proceedings of the International Symposium on Cooling Technology for Electronic Equipment, pp.96-109
27 Gardon, R., Akfrat, J.C., 1965, 'The role of turbulence in determining the transfer characteristics of impinging jet', Int. J. Heat Mass Transfer, Vol. 8 pp.1261-1272   DOI   ScienceOn
28 Doh, D. H., Cho, K.R., Baek, T.S., Cho, Y.B., 2000b, '3D-PTV using a Genetic Algorithm‘, Proc. of Winter Annual Conference, the Society of Air-conditioning and Refrigeration Engineers of Korea, Korea, Vol.2, pp.601-605
29 Faggiani. S., Grassi. W., 1990b, 'Round Liquid Jet Impingement Heat Transfer: Local Nusselt Numbers in the Region With Non Zero Pressure Gradient'. Proceedings of the Ninth International Heat Transfer Conference. Vol. 4, pp. 197-202