The paper presents 2-D numerical simulations of laminar backward-facing step flow using the FemLab 3.1 modeling package. Results demonstrated that primary reattachment lengths predicted by FemLab were in close agreement with experimental data up to step Reynolds number Reh=300. Also, dimensionless velocity profiles along the channel height calculated by FemLab were successfully compared with the experimental data.
Numerical simulations of laminar backward-facing step flow with FemLab 3.1 / Gualtieri, Carlo. - ELETTRONICO. - (2005), pp. 1-6. (Intervento presentato al convegno ASME Fluids Engineering Summer Conference (FEDSM2005) tenutosi a Houston, (USA) nel 19/23 Giugno 2005).
Numerical simulations of laminar backward-facing step flow with FemLab 3.1.
GUALTIERI, CARLO
2005
Abstract
The paper presents 2-D numerical simulations of laminar backward-facing step flow using the FemLab 3.1 modeling package. Results demonstrated that primary reattachment lengths predicted by FemLab were in close agreement with experimental data up to step Reynolds number Reh=300. Also, dimensionless velocity profiles along the channel height calculated by FemLab were successfully compared with the experimental data.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
