Contact us to arrange a meeting CONVERGE can model both CFD and solid heat transfer in the same simulation, making it straightforward to predict the temperatures in solids that are dependent on fluid interfaces, e.g., heads and valves in engines. This course will discuss conjugate heat transfer modeling in CONVERGE, including time control methods such as super-cycling, which accounts for disparate timescales in the solid and fluid domains by allowing the solid side of the simulation to progress with faster timescales than on the fluid side of the simulation. We will also discuss valve/seat contact resistance in engines, which is critical to accurate prediction of valve and head temperatures.
*This session includes hands-on CONVERGE Studio practice.
Papers + Presentations
PaperPresentation
Convergent ScienceRowinski, D., “Modelling a Single Screw Expander Using a Modified Cut-Cell Method,”
4th Short Course & Forum on Computational Fluid Dynamics in Rotary Positive Displacement Machines, London, United Kingdom, Sep 7–8, 2019.
Presenter
David Rowinski
Convergent ScienceAdditional Info
Saturday, September 7, 2019, 2:45 PM
S3: Developments in Numerical Aspects and Modelling
Conference information
