Filippas Photo

   +30  210  538  7358

   vfilip@uniwa.gr

   Office location: Κ10.127

  Office hours:
Monday 14:00-16:00,
Friday 16:00-18:00

 

   Curriculum vitae

Evangelos Filippas

Assistant Professor

Studies

  • PhD, Section of Ship and Marine Hydrodynamics, School of Naval Architecture and Marine Engineering, NTUA, Athens, Greece, 2019
  • Diploma in Naval Architecture and Marine Engineering, School of Naval Architecture and Marine Engineering, NTUA, Athens, Greece, 2013

 

Research interests

  • Hydrodynamic analysis
  • Ship propulsion
  • Energy saving devices
  • Ship and marine hydrodynamics
  • Computational hydrodynamics
  • Lifting flows and propeller theory
  • Boundary element methods

 

Selected publications

Filippas E.S., Belibassakis K.A., 2022, “A nonlinear time-domain BEM for the performance of 3D flapping-wing thrusters in directional waves”, Ocean Engineering, vol. 245.

Belibassakis K.A., Filippas E.S., Papadakis G.P., 2021, “Numerical and Experimental Investigation of the Performance of Dynamic Wing for Augmenting Ship Propulsion in Head and Quartering Seas”, Journal of Marine Science and Engineering, vol. 10(1).

Filippas E.S., Papadakis G.P., Belibassakis K.A., 2020, ” Free-surface effects on the performance of flapping-foil thruster for augmenting ship propulsion in waves”, Journal of Marine Science and Engineering, vol. 8(5).

Anevlavi D.E., Filippas E.S., Karperaki A.E., Belibassakis K.A., 2020, “A non linear BEM-FEM coupled scheme for the performance of flexible flapping-foil thrusters”, Journal of Marine Science and Engineering, vol. 8(1), 56.

Koutsogiannakis P. E., Filippas E. S., K. A. Belibassakis, 2019, “A study of Multi-Component Oscillating-Foil Hydrokinetic Turbines with a GPU Accelerated Boundary Element Method”,Journal of Marine Science and Engineering, vol. 7(12), p. 424.

Filippas E.S., Gerostathis Th.P., Belibassakis K.A., 2018, “Semi-activated oscillating hydrofoil as a nearshore biomimetic energy system in waves and currents”, Ocean Engineering, vol. 154, 396–415.

 

Courses

The current academic year teaches in the context of the following courses:

 

Undergraduate
  • Lifting flows and propeller theory
  • Fluid mechanics
  • Viscous flows – fluid machinery
  • Computational ship and marine hydrodynamics

 

Postgraduate
  • Computational fluid dynamics with applications in Naval Architecture and Marine Engineering