ד"ר יגאל גלזמן

Assistant professor at the Technion Department of Aerospace Engineering

  • Research Areas
  • Publications

Fluid mechanics research, combines interdisciplinary approaches from dynamical systems, signal processing, computer vision tools, and estimation theory. Current focus: cavitation and bubble dynamics, transitional and turbulent boundary layers, flow separation, flow control (low order system modeling), and non-isothermal multi-phase turbulence.

  • Eidelman, A., Elperin, T., Gluzman, I., Kleeorin, N., and Rogachevskii, I., Experimental Study of Temperature Fluctuations in Forced Stably Stratified Turbulent Flows. Phys. Fluids 25, 015111 (2013). (§Authors are ordered alphabetically.)
  • Eidelman, A., Elperin, T., Gluzman, I., Golbraikh,E., Helicity of Mean and Turbulent Flow with Coherent Structures in Rayleigh-B´enard Convective Cell, Phys. Fluids (1994-present), 26, 065103 (2014). (§Authors are ordered alphabetically.)
  • Gluzman I., Cohen J., Oshman Y., Statistical Calibration via Gaussianization in Hot-Wire Anemometry. Exp. Fluids 58.3: 15, (2017).
  • Gluzman I., Oshman Y., Cohen J., Detection and Isolation of Tollmien-Schlichting Waves in Shear Flows Using Blind Source Separation, Mech. Syst. Signal Process., 136, 106485 (2020).
  • Gluzman I. & Gayme F. D., Input-output framework for actuated boundary layers, Phys. Rev. Fluids, 6 (5), art. no. 053901 (2021).
  • Gluzman I., Cohen J., Oshman Y.,Blind disturbance separation and identification in a transitional boundary layer using minimal sensing, J. Fluid Mech., 927,A4 (2021).
  • Gluzman, I. & Thomas, F. O., Characterization of bubble dynamics in the nozzle flow of aviation fuels via computer vision tools., Int. J. Multiph. Flow (2022): 104133.
  • Gluzman, I., Gray P., Mejia K., Corke T. C., Thomas F. O., A simplified photogrammetry procedure in oil-film interferometry for accurate skin friction measurement over a Gaussian bump Exp. Fluids, 63.7 (2022): 1-14.
    Liu C., Gluzman, I., Lozier M., Midya S., Gordeyev S., Thomas F. O., Gayme F. D., Spatial Input–Output Analysis of Actuated Turbulent Boundary Layers, AIAA J., 1-15 (2022).
    Gluzman, I. & Thomas, F. O., Image-based characterization of the bubbly shock wave generation and evolution in aviation fuel cavitation, Phys. Rev. Fluids, 7, 084305 (2022).
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