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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My research is primarily experimental, although I do combine this with analytical methods and occasionally CFD. Skip to main content. Babinsky, H The aerodynamic performance of paragliders. Holger Babinsky is accepting applications for PhD students. Advances in Simulation of Wing and Nacelle Stall: Experiments in Fluids, We may also use external analysis systems which may set additional cookies to perform their analysis. The IFS Symposium, — to — pp.

Holger Babinsky | Department of Engineering

Babinsky, H and Edwards, JA Large-scale roughness influence on hopger hypersonic boundary layers approaching compression corners. McIntosh, SC and Babinsky, H and Bertenyi, T Convergence failure and stall hysteresis in actuator-disk momentum models applied to vertical axis wind turbines.

Contact us Information provided by: Oorebeek, JM and Babinsky, H Flow physics of a normal-hole bled supersonic turbulent boundary layer. A cursory review of AVT research invited.

Drag reduction by shock and boundary babisky control: Cambridge Univ Pr.

Professor Holger Babinsky – The Centre For Sustainable Road Freight

Contact us Postal Address: Babinsky, H habinsky Yang, J-M and Takayama, K Animated visualization of shock wave flowfields for dynamic comparison between experiment and computational prediction.


Corkery, S and Babinsky, H and Harvey, J Response of a flat plate wing to a transverse gust at low reynolds numbers.

Babinsky, H Correct explanation for lift takes off. These cookies and any others in use are detailed in our site privacy and cookie policies and are integral to our web site. Babinsky, H and Meguro, T holegr Jiang, Z and Takayama, K Numerical visualization of shock wave flow in an expanding tube and comparison with experiment.

Department of Engineering

About research at Cambridge. May Each student submits two copies of Final report plus an extra copy of their technical abstract, plus their log book or electronic equivalent to Group Centres by 4pm.

Notes on Numerical Fluid Mechanics, 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. Babinsky, H High resolution heat transfer measurement using liquid crystals in hypersonic flow.

Jones, AR and Babinsky, H Reynolds number effects on leading edge vortex development on a waving wing. Koike, S and Babinsky, H Effect of vortex generators on corner flow separation caused by shock wave-boundary-layer interaction. American Society of Mechanical Engineers, pp. Study at Cambridge Undergraduate Graduate International students Continuing education Executive and professional education Courses in education.

His research is predominantly experimental but includes theoretical and numerical studies, often in collaboration with other groups across the globe. A further focus of recent research has been the aerodynamics of low-Reynolds number flapping wings where fundamental experiments have helped identify the key mechanisms responsible for unsteady force production. Davidson, TSC and Babinsky, H Influence of boundary-layer state on development downstream of normal shock interactions.

Aerothermochemistry of Spacecraft and Associated Hypersonic Flows. International students Continuing education Executive and professional education Courses in education.


Titchener, N and Babinsky, H Microvortex generators applied babinssky flowfield containing a normal shock wave and diffuser. Babinsky, H and Edwards, JA Application of liquid crystal thermography in short duration hypersonic wind tunnels. Babinsky, H Paraglider and kite aerodynamics. Yang, J-M and Babinsky, H and Takayama, K Holographic interferometric animation of shock diffraction and reflection using a highly repeatable shock tube.

His main areas of research are in the field of experimental aerodynamics and associated measurement techniques. 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 holfer layer. In particular, we are currently working on new ways to investigate and improve hokger aerodynamic drag caused by the underbody of road haulage vehicles. Takayama, K and Hayakawa, K and Onodera, O and Babinsky, H Measurement of shock wave overpressures at volcanic eruption and its numerical simulation.

Professor Holger Babinsky

My main areas of research are in the field of experimental aerodynamics and associated measurement techniques. Babinsky, H and Takayama, K Quantitative evaluation of holographic interferograms using digital image processing.

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. Japanese Journal of Flow Visualisation, Research interests Professor Babinsky’s research is holgdr with fundamental and applied aerodynamics with application to aeronautics, road vehicles and energy production.