References

Aft94

M. Aftosmis. Upwind method for simulation of viscous flow on adaptively refined meshes. AIAA Journal, 32(2):268–277, 1994.

Dav97

L. Davidson. Large-eddy simulations: a note on the derivation of the equations for the subgrid turbulent kintic energies. Technical Report, Chalmers University of Technology, Department of Thermo and Fluid Dynamics, 1997.

Dom06

S. Domino. Towards verification of formal time accuracy for a family of approximate projection methods using the method of manufactured solutions. In Center for Turbulence Research Summer Proceedings. 2006.

Dom08

S. Domino. A comparison of various equal-order interpolation methodologies using the method of manufactured solutions. In Center for Turbulence Research Summer Proceedings. 2008.

Dom10

S. Domino. Towards verification of sliding mesh algorithms for complex applications using mms. In Center for Turbulence Research Summer Proceedings. 2010.

Dom14

S. Domino. A comparison between low order and higher order low mach discretization approaches. In Center for Turbulence Research Summer Proceedings. 2014.

DNP98

F. Ducors, F. Nicoud, and T. Poinsot. Wall-adapting local eddy-viscosity models for simulations in complex geometries. In International Conference on Computational Conference, volume 50. 1998.

EWS+10

H. Edwards, A. Williams, G. Sjaardema, D. Baur, and W. Cochran. Sierra toolkit computational mesh computational model. Technical Report SAND-20101192, Sandia National Laboratories, Albuquerque, NM, 2010.

HBH+03

M. Heroux, R. Bartlett, V. Howle, R. Hoekstra, J. Hu, T. Kolda, R. Lehoucq, K. Long, R. Pawlowski, E. Phipps, A. Salinger, J. Thornquist, R. Tuminaro, J. Willenbring, and A. Williams. An overview of trilinos. Technical Report SAND-20032927, Sandia National Laboratories, Albuquerque, NM, 2003.

Jas96

H. Jasek. Error analysis and estimation for the finite volume menthod with applications to fluid flow. In Ph.D. Thesis, Imperial College. 1996.

KV93

Y. Kallinderis and P. Vijayan. Adaptive refinement-coarsening scheme for three-dimensional unstructured meshes. AIAA Journal, 31(8):1440–1447, 1993.

KB89

Y. G. Kallinderis and J. R. Baron. Adaptive methods for a new navier-stokes algorithm. AIAA Journal, 27(1):37–43, 1989.

Mar05

M. Martinez. Comparison of galerkin and control volume finite element for advection-diffusion problems. Int. J. Num. Meth. Fluids, 50(3):347–376, 2005.

Mav00

D. J. Mavriplis. Adaptive meshing techniques for viscous flow calculations on mixed element unstructured meshes. International Journal for Numerical Methods in Fluids, 34(2):93–111, 2000.

MKL03

F. R. Menter, M. Kuntz, and R. Langtry. Ten years of industrial experience with the sst turbulence model. Turb, Heat and Mass Trans, 2003.

Moe84

C.-H. Moeng. A large-eddy-simulation model for the study of planetary boundary-layer turbulence. J. Atmos. Sci., 41(13):2052–2062, 1984.

Pao82

S. Paolucci. On the filtering of sound waves from the navier-stokes equations. Technical Report SAND-828257, Sandia National Laboratories, Livermore, CA, December 1982.

RB78

R. G. Rehm and H. R. Baum. The equations of motion for thermally driven buoyant flows. Journal of Research of the National Bureau of Standards, 83:279, 1978.

RM84

R. Rogallo and P. Moin. Numerical simulation of turbulent flows. Annual Review of Fluid Mechanics, 16:99–137, 1984.

SR87

G. Schneider and M. Raw. Control volume finite element method for heat transfer and fluid flow using colocated variables - 1. computational procedure. Numerial Heat Transfer, 11(4):363–390, 1987.

SHZ91

F. Shakib, T. J. R. Hughes, and J. Zdenek. A new finite element formulation for computational fluids dynamics: the compressible euler and navier stokes equations. Comp. Meth. in App. Mech and Engr., 89:141–219, 1991.

TDB05

S. Tieszen, S. Domino, and A. Black. Validation of a simple turbulence model suitable for closure of temporally-filtered navier-stokes equations using a helium plume. Technical Report SAND-20053210, Sandia National Laboratories, Albuquerque, NM, June 2005.