Corkery, SJ and Babinsky, H and Harvey, JK () On the development and early observations from a towing tank-based transverse wing–gust encounter test . Holger Babinsky of University of Cambridge, Cambridge (Cam) with expertise in: Aeronautical Engineering, Mechanical Engineering and Aerospace. Professor Holger Babinsky. Do you feel there’s something UNNATURAL about a giant plane being held up by thin air? If so, you owe it to yourself to discover the.
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Corkery, SJ and Babinsky, H and Harvey, JK Hilger the development and early observations from a towing tank-based transverse wing—gust encounter test rig. Experiments in Fluids, Babinsky, H Editorial. Davidson, TSC and Babinsky, H Influence of boundary-layer state on development downstream of normal shock interactions. Journal of Fluid Mechanics, Babinsky, H Correct explanation for lift takes off. Journal of Aircraft, Titchener, N and Babinsky, H A review of the use of vortex generators for mitigating shock-induced separation.
Jones, AR and Babinsky, H Reynolds number effects on leading edge vortex development on a waving wing. Titchener, N and Babinsky, H Microvortex generators applied to flowfield containing a normal shock wave and diffuser. Computers and Fluids, McIntosh, SC and Babinsky, H and Bertenyi, T Convergence failure and hoolger hysteresis in actuator-disk momentum models applied to vertical axis wind turbines.
Aerospace Science and Technology, Babinsky, H Leading edge flaps on birds.
Babinsky, H How do wings work? Ogawa, H and Babinsky, H Evaluation of wave drag reduction by flow control. Holden, HA and Babinsky, H Separated shock-boundary-layer interaction control using streamwise slots. Babinsky, H The aerodynamics of micro-air vehicles.
Babinsky, H Paraglider and kite aerodynamics. Babinsky, H The aerodynamic performance of paragliders. Babinsky, H and Edwards, JA Large-scale roughness influence babinskt turbulent hypersonic boundary layers approaching compression corners.
Journal of Spacecraft and Rockets, Babinsky, H and Edwards, JA Automatic liquid crystal thermography for transient heat transfer measurements in hypersonic flow. Babinsky, H Cover Illustration. Takayama, K and Hayakawa, K and Onodera, O and Babinsky, H Measurement of shock wave overpressures at volcanic eruption and its numerical simulation. Journal of the Visualization Society of Japan, Babinsky, H and Edwards, JA On the incipient separation of a turbulent hypersonic boundary layer.
Department of Engineering
Babinsky, H High resolution heat transfer measurement using liquid crystals in hypersonic flow. Yang, J-M and Babinsky, H and Takayama, K An investigation of shock wave reflections and diffractions using a diaphragmless shock tube. Japanese Journal of Flow Visualisation, Journal of Fluid Mechanics. Cambridge Univ Pr. High Performance Computing in Science and Engineering ‘ Drag reduction by shock and boundary layer control: Notes on Numerical Fluid Mechanics, Babinsky, H and Meguro, T and Jiang, Z and Takayama, K Numerical visualization of shock wave flow in an expanding tube and comparison with experiment.
Experimental and Numerical Flow Visualization. American Society of Mechanical Engineers, pp. Babinsky, H and Edwards, JA Quantitative heat transfer measurements using liquid crystal thermographs in short duration hypersonic flow. Aerothermochemistry of Spacecraft and Associated Hypersonic Flows.
SAE World Congress, to Koike, S and Babinsky, H Effect of vortex generators on corner flow separation caused by shock wave-boundary-layer interaction.
Coschignano, A and Babinsky, H and Sheaf, C and Platt, E Normal shock wave-turbulent boundary layer interactions in transonic intakes at incidence. Corkery, S and Babinsky, H and Harvey, J Response of a flat plate wing to a transverse gust at low reynolds numbers. Coschignano, A and Babinsky, H and Sheaf, C and Platt, E Influence of near-leading edge curvature on the performance of aero-engine intake lips at high-incidence. Davidson, TSC and Babinsky, H Influence of transition on the flow downstream of normal shock wave—boundary layer interactions.
A cursory review of AVT research invited.
Advances in Simulation of Wing and Nacelle Stall: Oorebeek, JM and Babinsky, H Bleed and vortex generator effectiveness for separation prevention in a transonic diffuser. Oorebeek, JM and Babinsky, H and Ugolotti, M and Orkwis, P and Duncan, S Comparison of experimental and computational flow structure investigations of a normal-hole bled supersonic boundary layer.
Benek, JA and Suchyta, CJ and Babinsky, H The effect of wind tunnel size and shock strength on incident shock boundary layer interaction experiments. Davidson, TSC and Babinsky, H An investigation of interactions between normal shocks and transitional boundary layers. Oorebeek, JM and Babinsky, H Flow physics of a normal-hole bled supersonic turbulent boundary layer.
Loth, E and Babinsky, H A representative flowfield of external compression inlets and diffusers. Babinsky, H and Cattafesta, L and Abate, G Design considerations for a micro aerial vehicle aerodynamic characterization facility at the University of Florida research and engineering education facility. Bhanderi, H and Babinsky, H Improved boundary layer quantities in the shock wave boundary layer interaction region on bumps.
Mechanics of the 21st Century: The 22nd International Symposium on Shock Waves, — to Babinsky, H Aerodynamic improvements of paraglider performance. Jiang, Z and Babinsky, H and Meguro, T and Takayama, K Numerical study on transient shock wave flows in a tube with a sudden change in its cross section.
Professor Holger Babinsky — CUED Division A
Babinsky, H and Yang, J-M and Takayama, K Animated visualization of shock wave flowfields for dynamic comparison between experiment and computational prediction. Yang, J-M and Babinsky, H and Takayama, K Holographic interferometric animation of shock diffraction and reflection using a highly repeatable shock tube.
The IFS Symposium, — to — pp. Babinsky, H and Takayama, K Quantitative evaluation of holographic interferograms using digital image processing. Babinsky, H and Takayama, K Quantitative holographic interferometry of shock-wave flows using Fourier transform fringe analysis. Takayama, K and Babinsky, H The role of image processing and flow visualisation in shock wave research. Babinsky, H and Edwards, JA The influence of large scale roughness on a turbulent hypersonic boundary layer approaching a compression corner.
Babinsky, H and Edwards, JA The application and analysis of liquid crystal thermographs in short duration hypersonic flow.
How do wings work? – IOPscience
Babinsky, H and Edwards, JA Application of liquid crystal thermography in short duration hypersonic wind tunnels. Skip to main content. This list was generated on Mon Dec 31