CV (english)

Education

  • 27.02.2018 Habilitation: Low-dimensional modeling of flows with changing operating and boundary conditions
  • 11.07.2006 Defence of Ph.D. Thesis: Global stability analysis for low-dimensional modelling of uncompressible flow
  • 09.2005 – 11.2005 Guest Scientist in Institut für Strömungsmechanik und Technische Akustik(ISTA), Berlin (hosts: prof. F. Thiele, prof. B.R. Noack, prof. R. King; Sfb 557: “Control of complex turbulent shear flows”)
  • 10.2002 – 07.2006 Ph.D. studies on the Faculty of Working Machines and Transportation, Poznan University of Technology
  • 03.07.2002 Defence of Master’s Thesis: The use of numerical algorithms in solution of convective-diffusive phenomena
  • 19. – 29.07.2001 Participation in EMS Summer School Simulation of Fluid and Structure Interaction, Prague, Czech Republic
  • 10.1997 – 06.2002 M.Sc. studies on Mechanics at Poznan University of Technology
  • 1993 – 1997 Secondary School in Kalisz
  • 1985 – 1997 Primary School in Kalisz

Professional experience

  • 2016 Research fellow in Chair of Virtual Engineering (Poznań University of Technology)
  • 2010 – 2013 Participation in 7. EU Framework Programme IDIHOM:  – Industrialisation of High-Order Methods – A Top-Down Approach
  • 2008 Research fellow in Institute of Internal Combution Engines and Transportation (Poznań University of Technology)
  • 2006 – 2008 Assistant in Institute of Internal Combution Engines and Transportation (Poznań University of Technology)
  • 2004 Cooperation with Institute of Aviation, Warsaw (aeroelasticity including nonlinear properties of materials used in the wing)
  • 2002 – 2004 Participation in 5. EU Framework Programme TAURUS – Technology Development for Aeroelastic Simulations on Unstructured Grids; Cooperation with EADS, AIRBUS, ALENIA, CASA, DLR, TUB, ONERA

Areas of interest

  • global stability of 2D and 3D flows
  • low-dimensional modelling of flows using eigenmodes and POD modes
  • Ahmed Body flow stability (partially Sfb 557)
  • Galerkin projection and aproximation
  • numerical methods
  • parallel computations (MPI)
  • 3D modelling / CAD
  • programming (C, Fortran, Pascal) and visualisation
  • aeroelasticity
  • FEM mesh generation

Teaching at PUT

  • operating systems (mainly UNIX-like)
  • parallel programming (MPI)
  • GUI (graphical user interface) programming
  • CAD/CAM software integration
  • Computer Aided Engineering
  • Modelling and Simulation