Mohammad A. Bidakhvidi

  • Maschinenbau, Physik und Elektrotechnik
  • Auszubildender Patentanwalt
  • Löwen (BE)
  • +32 16 24 08 50
  • m.bidakhvidi@vo.eu
    • Biografie

    • Mohammad Bidakhvidi absolvierte 2007 seinen Bachelor- und Master-Studiengang der Industriewissenschaften, Spezialgebiet Elektromechanik, an der Universität von Antwerpen. 2009 machte er sein Master-Examen in Maschinenbau-Elektrotechnik an der Freien Universität Brüssel und begann seine wissenschaftliche Karriere an der Fakultät Maschinenbau, wo er als Doktorand mit IWT-Stipendium bei der Forschungsgruppe Akustik und Schwingungen (AVRG) tätig war. Seine wissenschaftliche Forschungsarbeit trug einen deutlich multidisziplinären Charakter und bezog sich sowohl auf die Computer- als auf die experimentelle Analyse der Fluid-Struktur-Interaktion piezoelektrischer resonanter Flügelstrukturen. 2014 folgte die Promotion von Mohammad Bidakhvidi im Bereich Maschinenbau.

    • Spezialgebiete

    • Biomechanik
    • Elektrotechnik
    • Ingenieurtechnik
    • Luft- und Raumfahrt
    • Maschinen und Instrumente
    • Mechanik
    • Mechatronik
    • Offshore
    • Sensoren
    • Strömungslehre / fluiddynamik
    • Systeme
    • Publikationen

    • M.A. Bidakhvidi et al., Experimental study of the flow field induced by a resonating piezoelectric flapping wing, Journal of Experiments in Fluids, Vol.54, issue 11, pp. 1-16, November 2013, doi: 10.1007/s00348-013-1619-y.
    • R. Shirzadeh, C. Devriendt, M.A. Bidakhvidi and P. Guillaume, Experimental and computational damping estimation of an offshore wind turbine on a monopile foundation, Journal of Wind Engineering & Industrial Aerodynamics, vol.120, n.10, pp.96-106, 2013, doi:10.1016/2013-07-004.
    • M.A. Bidakhvidi et al., Numerical and Experimental Investigation of the Piezoelectric Flapping Wing Micro-air-vehicles Propulsion, SAE Int. J. Aerosp., 5(1):281-287, 2012, doi:10.4271/2012-01-2245.
    • M.A. Bidakhvidi et al., Study of the cooling performance of oscillating piezoelectric fans, in Proceedings of the ASME International Mechanical Engineering Congress Exposition (IMECE), San Diego (California, USA), 2013.
    • D. Vucinic, A. Suol, M.A. Bidakhvidi, S. Vanlanduit, CFD validation of the Coanda based thrust vectoring nozzle, in Proceedings of the 7th International Conference on Advanced Computational Engineering and Experiment, Madrid (Spain), 2013.
    • M.A. Bidakhvidi et al., Study of the cooling performance of resonating piezoelectric fans, in Proceedings of the 20th International Congress on Sound and Vibration, Bangkok (Thailand), 2013.
    • R. Shirzadeh, C. Devriendt, M.A. Bidakhvidi and P. Guillaume, Aerodynamic damping of an offshore wind turbine in operational and parked conditions: A comparison between simulations and measurements, in Proceedings of the 12th Americas Conference on Wind Engineering (12ACWE), Seattle (Washington, USA), 2013.
    • R. Shirzadeh, C. Devriendt, M.A. Bidakhvidi and P. Guillaume, Experimental and computational aeroelastic damping of an Offshore Wind Turbine on a monopile foundation, in Proceedings of the Conference on Noise and Vibration Engineering (ISMA2012), Leuven (Belgium), 2012.
    • M.A. Bidakhvidi et al., Analysis of flows induced by piezoelectric flapping wings, in Proceedings of the 5th International Conference on Optical Measurement Techniques for Structures and Systems (OPTIMESS2012), Antwerp (Belgium), 2012.
    • M.A. Bidakhvidi et al., Multiphysics optimization of the piezoelectric flapping wing propulsion, in Proceedings of the 3rd International Conference on Engineering Optimization (EngOpt2012), Rio de Janeiro (Brazil), 2012.
    • R. Shirzadeh, P. Guillaume, M.A. Bidakhvidi, Experimental study of aerodynamic damping of a piezoelectric fan, in Proceedings of the 15th International Conference on Experimental Mechanics (ICEM15), Porto (Portugal), 2012.
    • R. Shirzadeh, C. Devriendt, M.A. Bidakhvidi and P. Guillaume, The dynamics of an Offshore Wind Turbine subjected to wind and wave actions: A comparison between simulations and measurements, in Proceedings of the 11th German wind energy conference (DEWEK 2012), Bremen (Germany), 2012.
    • M.A. Bidakhvidi et al., Experimental and computational analysis of the flow induced by a piezoelectric fan, in Proceedings of the 15th International Symposium on Flow Visualization (ISFV15), Minsk (Belarus), 2012.
    • M.A. Bidakhvidi et al., Time-resolved PIV of flows induced by piezoelectric flapping wings, in Proceedings of the International Symposium on Particle Image Velocimetry (PIV11), Kobe (Japan), 2011.
    • • R. Shirzadeh, M. Runacres, P. Guillaume and M.A. Bidakhvidi, An investigation of the lock-in behavior of an oscillating cylinder in transverse flow, in Proceedings of the IUTAM Symposium on Bluff Body Flows (blubof2011), Kanpur (India), 2011.
    • M.A. Bidakhvidi, S. Vanlanduit and T. De Troyer, Design and testing of a piezo fan for MAV propulsion, in Proceedings of the International Symposium on Light Weight Unmanned Aerial Vehicle Systems and Subsystems (LW-UAS 2009), Oostende (Belgium), 2009.
    • M.A. Bidakhvidi et al., Numerical and experimental study of the flapping wing induced flow for micro-air-vehicles propulsion, in Proceedings of the International Symposium on Coupled Methods in Numerical Dynamics (CMND 2009), Split (Croatia), 2009.