The Pressure-Corrected ICE Finite Element Method (PCICE-FEM) for Compressible Flows on Unstructured Meshes
Journal Article
·
· Journal of Computational Physics
A new implicit continuous-fluid Eulerian (ICE) scheme for simulating a wide range of transient and steady, inviscid and viscous compressible flows on unstructured finite elements is presented. This new computational fluid dynamics scheme, termed the pressure-corrected ICE-finite element method (PCICE-FEM), represents an advancement in mass–momentum coupled, pressure-based schemes. The governing hydrodynamic equations for this scheme consist of the conservative forms of the momentum balance (Navier–Stokes), mass conservation, and total energy equations. The PCICE-FEM scheme is developed as a predictor–corrector scheme by performing a fractional-step splitting of the semi-implicit temporal discretization of the governing equations into an explicit predictor phase and a semi-implicit pressure-correction phase coupled by a pressure Poisson solution. The result of this predictor–corrector formulation is that the pressure Poisson equation is provided with sufficient internal energy information to avoid iteration with the semi-implicit pressure-correction equations. The PCICE-FEM scheme combines a modified form of the two-step Taylor–Galerkin FEM scheme as an explicit predictor for the fractional momentum equations and a time-weighted FEM method for the semi-implicit form of the mass conservation and the total energy equations. The PCICE-FEM scheme employs flux-corrected transport (FCT) as a high-resolution filter for shock capturing. The ability of the PCICE-FEM scheme to accurately and efficiently simulate a wide variety of flows from nearly incompressible to highly compressible is demonstrated.
- Research Organization:
- Idaho National Laboratory (INL)
- Sponsoring Organization:
- USDOE
- DOE Contract Number:
- AC07-99ID13727
- OSTI ID:
- 912219
- Report Number(s):
- INEEL/JOU-03-00945
- Journal Information:
- Journal of Computational Physics, Journal Name: Journal of Computational Physics Journal Issue: 2 Vol. 198; ISSN JCTPAH; ISSN 0021-9991
- Country of Publication:
- United States
- Language:
- English
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