Professor Dr.-Ing. Jochen Fröhlich

Address Technische Universität Dresden
Institut für Strömungsmechanik
01062 Dresden

Projects

As Applicant
- Current projects
  - Experimental and scale resolving numerical investigations of the physical performance of circumferential grooves in subsonic axial compressor stages (Research Grants)
  - Rotor cooling of low-inertia induction machines for highly dynamic applications (Research Grants)
- Completed projects
  - LES-RANS coupling for the simulation of complex flows (Research Units)
  - Entwicklung numerischer Modelle zur Vorhersage kavitationsbedingter Geräusche und Erosion in Hydraulikventilen mittels LES (Research Grants)
  - Large Eddy Simulation mit adaptiven bewegten Gittern zur Lösung meteorologischer Fragestellungen (Priority Programmes)
  - High resolution numerical and experimental studies of turbulence-induced sediment erosion and near-bed transport (Research Grants)
  - LES and DNS of the unsteady interaction of secondary flows in turbomachnine grids (Research Grants)
  - Inclusion interactions during flotation in liquid metals (Research Grants)
  - Experiments and simulations for the study of submerged aquatic canopies consisting of long flexible blades (Research Grants)
  - Numerical investigation of the influence of the tip clearance flow and the Coriolis force on the near wal flow in a compressor stage (Research Grants)
  - Near-Wall Flow in Turbomachinery Blade Rows (Research Grants)
As Project Head
- Completed projects
  - Large-Eddy Simulation (LES) der oszillierenden Strömung in Brennkammern bei Konfigurationen mit pilotierten Vormischflammen (Collaborative Research Centres)
  - Simulation und Modellierung von Blasen in der Magnetofluiddynamik (Collaborative Research Centres)
  - Numerische und experimentelle Untersuchungen zum Einfluss von Magnetfeldern bei elektrochemischen Abscheidungen (Collaborative Research Centres)
As Co-Investigator
- Current projects
  - Balancing spatial and temporal accuracy in high fidelity simulations of incompressible flows (Research Grants)
- Completed projects
  - Multi-level methods with high order in time and space for the numerical simulation of incompressible flows (Research Grants)