Research activities of Kees Vuik

Numerical linear algebra topics

• Iterative methods for linear systems (publications)
• Preconditioning for iterative methods (publications)
• Deflation combined with iterative methods (publications, Fracking)
• Iterative methods for the Helmholtz equation (Krylov methods, preconditioning, multigrid) (publications). Many applications of Helmholtz problems are in seismic applications. Two visualization made by Hans Knibbe can be found here: video 1 and video 2.
  
  One of the first reports on multigrid is:
  
  Fast approximate inversion of large sparse linear systems
  Paul O. Fredrickson
  Lakehead University, Mathematics Report #7-75, 1975
  
  
• Iterative methods for Least Squares problems (publications)
• Iterative methods to calculate eigenvalues (publications)

Optimization of energy networks (Powerweb, Powerweb flyer, Powerweb kick-off, Umbrella, Smart Energy Systems in the Built Environment, Energiekaart )

• Iterative solution of the power grid equations ( Load Flow simulation software )
• Contingency analysis
• Transient simulations Solution of the Navier Stokes equations by the pressure correction method

Navier Stokes equation topics (publications, Picture at Almatis Volkskrant paper)

• MOTOR Multi-ObjecTive design Optimization of fluid eneRgy machines.
• MSFF-DYN-FRAC-PR Multi-Scale Fluid Flow in DYNamically FRACtured Porous Reservoir
• Solution of the Navier Stokes equations by the pressure correction method
• Coupled approach, where the momentum and pressure equations are solved simultaneously.
• Convection diffusion equation
• Poisson equation

Parallel computing (publications)

• Interested in developments of MPI and OpenMP
• Scientific Computing on GPU's
• Domain decomposition methods
• Parallel methods for a cluster of workstations

Moving boundary problems and other modelling problems (publications)

• Modelling of diseases (SIR models), (Interview NOS Radio 1 Journaal)
• Conservative discretization of the Stefan condition at the free boundary
• Historical background of the Stefan problem
• Modelling and applications: etching problems, homogenization of alloys etc.
• Numerical methods for multiphase flow, bubbles etc. (publications)

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