Research lines

  • 1) Numerical simulation and optimization of industrial devices and processes, including: mathematical modeling in terms of differential equations; study and development of numerical techniques (finite elements, finite volumes, boundary elements, reduced order methods, etc.); optimization and control; development of algorithms and software packages.
  • 2) Mathematical and numerical analysis of systems of partial differential equations.
  • 3) Fields of application: acoustics, batteries, biomathematics, kinetic equations, electromagnetism, fluid-structure, fluid mechanics, solid mechanics, metallurgy, heat transfer etc.