Development and Validation of a Massively Parallel High-Order Solver for DNS and LES of Industrial Flows

Carton de Wiart, Corentin; Hillewaert, Koen

doi:10.1007/978-3-319-12886-3_13

Request a copy

Contribution to collective works (Parts of books)

Development and Validation of a Massively Parallel High-Order Solver for DNS and LES of Industrial Flows

Carton de Wiart, Corentin; Hillewaert, Koen

2015 • In Kroll, Norbert; Hirsch, Charles; Bassi, Francesco et al. (Eds.) IDIHOM: Industrialization of High-Order Methods - A Top-Down Approach: Results of a Collaborative Research Project Funded by the European Union, 2010 - 2014

Permalink
https://hdl.handle.net/2268/262491

DOI
10.1007/978-3-319-12886-3_13

Files (1)Send to Details Statistics Bibliography Similar publications

Files

Full Text

Wiart-Hillewaert2015_Chapter_DevelopmentAndValidationOfAMas.pdf

Publisher postprint (6.31 MB)

Request a copy

All documents in ORBi are protected by a user license.

Send to

RIS BibTex APA Chicago Permalink X Linkedin

Details

Abstract :

[en] This work is part of the development of a new generation CFD solver, Argo, based on the discontinuous Galerkin Method (DGM), specifically targeted towards accurate, adaptive, reliable and fast DNS and LES of industrial aerodynamic flows. Several aspects were investigated in IDIHOM. A first activity was the optimisation of the parallellisation strategy, resulting in highly efficient scaling, demonstrated on some of the largest computers in Europe. A second activity concerned the assessment and validation on several academic benchmark problems of the capability of DGM to perform direct numerical simulation (DNS) and (implicit) Large Eddy Simulation (iLES). Two moderately complex flows are treated, namely the ILES of the transitional flow in the low pressure turbine cascade T106C and the isothermal jet issueing from the JEAN nozzle.

Disciplines :

Aerospace & aeronautics engineering
Computer science

Author, co-author :

Carton de Wiart, Corentin; Cenaero

Hillewaert, Koen ; Cenaero

Language :

English

Title :

Development and Validation of a Massively Parallel High-Order Solver for DNS and LES of Industrial Flows

Publication date :

2015

Main work title :

IDIHOM: Industrialization of High-Order Methods - A Top-Down Approach: Results of a Collaborative Research Project Funded by the European Union, 2010 - 2014

Editor :

Kroll, Norbert

Hirsch, Charles

Bassi, Francesco

Johnston, Craig

Hillewaert, Koen ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > Design of Turbomachines

Publisher :

Springer International Publishing

ISBN/EAN :

978-3-319-12886-3

Pages :

251-292

Additional URL :

https://doi.org/10.1007/978-3-319-12886-3_13

European Projects :

FP7 - 265780 - IDIHOM - Industrialisation of High-Order Methods – A Top-Down Approach

Funders :

CE - Commission Européenne [BE]

Available on ORBi :

since 11 August 2021

Statistics

Number of views

51 (2 by ULiège)

Number of downloads

1 (1 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

OpenAlex citations

Bibliography

http://uriah.dedi.melbourne.co.uk/w/index.php/Main_Page
(2012), http://zjwang.com/hiocfd.html, Nashville, Tennessee, January 7-12
(2013), pp. 27-28. , http://www.dlr.de/as/desktopdefault.aspx/tabid-8170/13999_read-35550/, Cologne, Germany, May
Altmann, C., Beck, A.D., Hindenlang, F., Staudenmaier, M., Gassner, G.J., Munz, C.-D., An Efficient High Performance Parallelization of a Discontinuous Galerkin Spectral Element Method (2013) Facing the Multicore-Challenge III. LNCS, 7686, pp. 37-47. , In: Keller, R., Kramer, D., Weiss, J.-P. (eds.), Springer, Heidelberg
Andersson, N., Eriksson, L.-E., Davidson, L., Large-Eddy Simulation of a Mach 0.75 jet (2003) 9th AIAA/CEAS Aeroacoustics Conference, pp. 2003-3312. , AIAA paper 2003-3312
Arnold, D.N., Brezzi, F., Cockburn, B., Marini, L.D., Unified Analysis of Discontinuous Galerkin Methods for Elliptic Problems (2002) SIAM Journal of Numerical Analysis, 39, pp. 1749-1779
Bijl, H., Carpenter, M.H., Vatsa, V.N., Kennedy, C.A., Implicit time integration schemes for the unsteady compressible Navier-Stokes equations: Laminar flow (2002) Journal of Computational Physics, 179, pp. 313-329
Breuer, M., Peller, N., Rapp, C., Manhart, M., Flow over periodic hills -numerical and experimental study over a wide range of reynolds numbers (2009) Computers and Fluids, 38, pp. 433-457
Bricteux, L., Duponcheel, M., Winckelmans, G., A multiscale subgrid model for both free vortex flows and wall-bounded flows (2009) Physics of Fluids, 21, p. 105102
Benocci, C., Pinelli, A., The role of the forcing term in the large-eddy simulation of equilibrium channel flow (1990) Engineering Turbulence Modeling and Experiments, 1, pp. 287-296
Canuto, C., Hussaini, M.Y., Quarteroni, A., Zang, T.A., (1988) Spectral Methods in Fluid Dynamics, , Springer
Carton De Wiart, C., Cenaero’s results on test case C3.6: DNS and LES of the flow over a 2D periodic hill (2013) 2nd International Workshop on High-Order CFD Methods, , , Köln, May 27-28
Carton De Wiart, C., Hillewaert, K., Bricteux, L., Winckelmans, G., Implicit LES of free and wall bounded turbulent flows based on the discontinuous Galerkin/symmetric interior penalty method (2014) Accepted with Minor Revisions for Int. J. Numer. Meth. Fluids
Carton De Wiart, C., Hillewaert, K., Duponcheel, M., Winckelmans, G., Assessment of a discontinuous Galerkin method for the simulation of vortical flows at high Reynolds number (2014) Int. J. Numer. Meth. Fluids, 74, pp. 469-493
Cockburn, B., Discontinuous Galerkin Methods for Convection-Dominated Problems (1974) GI-BIFOA Internationale Fachtagung: Informationszentren in Wirtschaft und Verwaltung. Lecture Notes in Computational Science and Engineering, 9, pp. 69-224. , Springer
De Wiart, C.C., Towards a discontinuous Galerkin solver for scale-resolving simulations of moderate Reynolds number flows, and application to industrial cases, p. 2014. , PhD thesis, Ecole polytechnique de Louvain/iMMC (May
Deville, M.O., Fischer, P.F., Mund, E.H., (2002) High-Order Methods for Incompressible Fluid Flow, , Cambridge University Press
Fröhlich, J., Mellen, C.P., Rodi, W., Temmerman, L., Leschziner, M., Highly resolved large-eddy simulation of separated flow in a channel with streamwise periodic constrictions (2005) J. Fluid Mech, 526, pp. 19-66
Geuzaine, C., Remacle, J.-F., Gmsh: A three-dimensional finite element mesh generator with built-in pre-and post-processing facilities (2009) International Journal for Numerical Methods in Engineering, 79 (11), pp. 1309-1331
Hesthaven, J.S., Warburton, T., (2008) Nodal Discontinuous Galerkin Methods, , Algorithms, Analysis and Applications. Text in Applied Mathematics. Springer
Hillewaert, K., Carton De Wiart, C., Verheylewegen, G., Arts, T., Assessment of a high-order discontinuous Galerkin method for the direct numerical simulation of transition at low Reynolds number in the T106C high-lift low pressure turbine cascade (2014) Proceedings of the ASME Turbine Technical Conference and Exhibition, number GT2014-26739. ASME Turbo Expo
Hillewaert, K., (2013) Development of the Discontinuous Galerkin Method for highresolution, large scale CFD and acoustics in industrial geometries, , PhD thesis, Ecole polytechnique de Louvain/iMMC, February
Hoyas, S., Jimenez, J., Reynolds number effects on the Reynolds-stress budgets in turbulent channels (2008) Physics of Fluids, 20, p. 101511
Hu, F.Q., Hussaini, M.Y., Rasetarinera, P., An analysis of the discontinuous galerkin method for wave propagation problems (1999) Journal of Computational Physics, 151 (2), pp. 921-946
Huynh, H.T., A flux reconstruction approach to high-order schemes including discontinuous Galerkin methods (2007) 18th AIAA Computational Fluid Dynamics Conference, , number AIAA-2007-4079
Jordan, P., Gervais, Y., Valiére, J.-C., Foulon, H., (2002) Final results from single point measurements, , Project deliverable D3.4, JEAN -EU 5th Framework Programme, G4RD-CT2000-00313
Karniadakis, G.E., Sherwin, S.J., (2005) Spectral/hp element methods for computational fluid dynamics, , Oxford University Press
Lodato, G., Castonguay, P., Jameson, A., Discrete filter for large-eddy simulation using high-order spectral difference methods (2012) International Journal for Numerical Methods in Fluids, 72 (2), pp. 231-258
Manhart, M., Friedrich, R., DNS of a turbulent boundary layer with separation. Intl (2002) J. Heat Fluid Flow, 23 (5), pp. 572-581
Moser, R.D., Kim, J., Mansour, N.N., Direct Numerical Simulation of turbulent channel flow up to Reτ =590 (1998) Physics of Fluids, 11 (4), pp. 943-945
Rapp, C., Pfleger, F., Manhart, M., New experimental results for a les benchmark case (2009) Direct and Large-Eddy Simulations VII, , Armenio, V., Guerts, B., Fröhlich, J. (eds.)
Shahbazi, K., An explicit expression for the penalty parameter of the interior penalty method (2005) Journal of Computational Physics, 205, pp. 401-407
Sun, Y., Wang, Z.J., Lia, Y., High-order multidomain spectral difference method for the Navier-Stokes equations on unstructured hexahedral grids Communication in Computational Physics, 2 (2), pp. 310-333
Toro, E.F., (1999) Riemann Solvers and Numerical Methods for Fluid Dynamics: A Practical Introduction, , Springer
Tucker, P., Computation of unsteady turbomachinery flows: Part 1 -progress and challenges (2011) Progress in Aerospace Sciences, 47, pp. 522-545
Tucker, P., Computation of unsteady turbomachinery flows: Part 2 -LES and hybrids (2011) Progress in Aerospace Sciences, 47, pp. 546-569
Vasilyev, O.V., High order finite difference schemes on non-uniform meshes with good conservation properties (2000) Journal of Computational Physics, 157 (2), pp. 746-761
Wang, W., (2009) A non-body conformal grid method for simulations of laminar and turbulent flows with a compressible large eddy simulation solver, , PhD thesis, Iowa State University
Wang, Z.-J., Fidkowski, K., Abgrall, R., Bassi, F., Caraeni, D., Cary, A., Deconinck, H., Visbal, M., High-order CFD methods: Current status and perspectives (2013) International Journal for Numerical Methods in Fluids, 72 (8), pp. 811-845
Winckelmans, G.S., Jeanmart, H., Carati, D., On the comparison of turbulence intensities from large-eddy simulation with those from experiment or direct numerical simulation (2002) Physics of Fluids, 14 (5), p. 1809