• Static and transient analyses (temperature distribution, heat flow)
  • Evaluation of the thermal balance of active and passive components
  • Design optimisation based on many years of experience and numerical methods
  • Abstraction and implementation of complex thermal boundary conditions in mathematical models
  • Tools: ANSYS (FEM), ESATAN-TMS
  • ANSYS (FEM)
    • Applied for the complete spectrum of thermal analyses
    • Realisation of detailed, parametric models
    • Numerical design optimisation and sensitivity studies
  • ESATAN-TMS:
    • Thermal analyses for space projects
    • Model derivation from CAD-geometry and FEM-models
    • Direct  generation of detailed and reduced geometric and thermal models (GMM und TMM)
    • Computation of specific parameters required for ESATAN models  by detailed FEM simulations
  • References:

 ESATAN_iso

FEM_ESATAN