Serkan ÖZGEN
(Orta Doğu Teknik Üniversitesi, Ankara, Türkiye)
OĞUZ UZOL
(Orta Doğu Teknik Üniversitesi, Ankara, Türkiye)
N. Erkin ÖÇER
(Orta Doğu Teknik Üniversitesi, Ankara, Türkiye)
Proje Grubu: TÜBİTAK MAG ProjeSayfa Sayısı: 81Proje No: 106M067Proje Bitiş Tarihi: 01.10.2009Türkçe

0 0
Yüksek hızlı viskoz jetlerin atomizasyon probleminin parçacık görüntüleme tekniği ile parametrik olarak incelenmesi
  • [1] QUINN, W. R., Near field measurements in an equilateral triangular turbulent freejet, AIAA J., Vol. 25 (12), 2574-2585, (2005).
  • [2] ZAMAN, K. B. M. Q., Wang, F. Y., Georgiadis, N. J., Noise, turbulence and thrust of subsonic freejets from lobed nozzles, AIAA J., Vol. 41 (3), 398-407, (2003).
  • [3] VISWANATHAN, K., Nozzle shaping for reduction of jet noise from single jets, AIAA J., Vol. 43 (5), 1008-1022, (2005).
  • [4] BACHALO, W. D., Houser, M. J., Phase doppler spray analyser for simultaneous measurements of drop size and velocity distributions, Opt. Eng., 23, 583-590 (1984).
  • [5] PITCHER, G., Wigley, G., Saffman, M., Velocity and dropsize measurements in fuel sprays in a direct injection Diesel engine, Part. Syst. Charact. 7, 226–232 (1990).
  • [6] DOBBINS, R. A., Crocco, L., Glassman, I., Measurement of mean particle sizes of sprays from diffractively scattered light, AIAA J., 1, 1882–1886 (1963).
  • [7] LEFEBVRE, A. H., Atomization and Sprays, Hemisphere, New York, (1989).
  • [8] REITZ, R.D., Bracco, F.V., Mechanism of atomization of a liquid jet, Phys. Fluids, Vol. 25 (10), 1730-1742, (1982).
  • [9] IBRAHIM, E. A., Marshall, S. O., Instability of a parabolic velocity profile, Chemical Engineering Journal, 76, 17-21, (2000).
  • [10] SAVILLE, D. A., Electrohydrodynamic stability, J. Fluid Mech., Vol. 48 (4), 815-827, (1971).
  • [11] ELISEEV, Y. G., Flow instability of a liquid dielectric cylinder in a transverse electrostatic field, Izvestiya VUZ. Fizika, (12), 34-38, (1969).
  • [12] SCHNEIDER, J. M., Lındblad, N. R., Hendricks, C. D., Crowley, J. M., Stability of an electrified liquid jet, Journal of Applied Physics, Vol. 38 (6), 2599-2605, (1967).
  • [13] TURNBULL, R.J., On the instability of an electrostatically sprayed liquid jet, IEEE Transactions on Industry Applications, Vol. 28 (6), 1432-1438, (1992).
  • [14] ARTANA, G., Romat, H., Touchard, G., Study of a high-velocity liquid jet stressed by an electric field, Physics of Fluids, Vol. 10 (11), (1998).
  • [15] ARTANA, G., Romat, H., Touchard, G., Theoretical analysis of linear stability of electrified jets flowing at high velocity inside a coaxial electrode, Journal of Electrostatics, Vol. 43, 83-100, (1998).
  • [16] PRIOL, L., Baudel, P., Louste, C., Romat, H., Theoretical and experimental study (linear stability and Malvern granulometry) on electrified jets of diesel oil in atomization regime, Journal of Electrostatics, Vol. 64, 591-596, (2006).
  • [17] HUSSEIN, H. J., Capp, S., George, W. K., Velocity Measurements in a High-Reynolds-Number, Momentum-Conserving, Axisymmetric, Turbulent Jet, Journal of Fluid Mechanics, Vol. 258, 31-75, (1994).
  • [18] GUTMARK, E. J., Grinstein, F. F., Flow with non-circular jets, Annual Review of Fluid Mechanics, Vol. 31, (1999).
  • [19] GLANTSCHNIG, W. J., W.-H. Chen, Light scattering from water droplets in the geometrical optics approximation, Appl. Opt., Vol. 20, 2499–2509, (1981).
  • [20] HESSELBACHER, K.H., Anders, K., Frohn, A., Experimental investigation of Gaussian beam effects on the accuracy of a droplet sizing method, Appl. Opt., 30, 4930-4930, (1991).
  • [21] PAJOT, O., Mounaim-Rousselle, C., Droplet sizing by interferometric method based on Mie scattering in an IC engine, 9th Int. Symp. on Applications of Laser Techniques to Fluid Mechanics, Lisbon, (1998).
  • [22] PRESS, W.H., Teukolsky, S.A., Wetterling, W.T., Flannery, B.P., Numerical Recipes in Fortran. Cambridge University Press, Cambridge, (1992).

TÜBİTAK ULAKBİM Ulusal Akademik Ağ ve Bilgi Merkezi Cahit Arf Bilgi Merkezi © 2019 Tüm Hakları Saklıdır.