Séminaire de Mécanique d'Orsay
Mardi 28 juin à 14h au LIMSI
Eulerian high order moment methods for evaporating polydisperse sprays: from
mathematical issues to HPC
Marc Massot
EM2C, ECP
The modeling and simulation of multiphase reacting flows covers a large spectrum of applications
ranging from combustion in automobile and aeronautical engines to atmospheric pollution as well as
biomedical engineering. In the framework of this talk, we will mainly focus on a disperse liquid phase
carried by a gaseous flow field which can be either laminar or turbulent; however, this spray can be
polydisperse, that is constituted of droplets with a large size spectrum. Thus, such flows involve a large
range of temporal and spatial scales which have to be resolved in order to capture the dynamics of the
phenomena and provide reliable and eventually predictive simulation tools. Even if the power of the
computer ressources regularly increases, such very stiff problems can lead to serious numerical difficulties
and prevent efficient multi-dimensional simulations.
The purpose of this talk is to show that all the necessary steps in order to develop a new generation
of computational code have to be designed at the same time with a high level of coherence: mathematical
modeling through high order moment methods, development of new dedicated stable and accurate
numerical methods, implementation of optimized algorithms as well as validations of both model and
methods using either experimental measurements or other codes. We will introduce both a new class of
models for the direct numerical simulation of spray dynamics [1, 2, 3, 4, 5], as well as a set of dedicated
numerical methods [6, 7, 2] and prove that such an approach has the ability, once validated [8, 9], to lead
to high perfomance computing on parallel architectures [10], obtained during the Summer Program 2010
of the Center for Turbulence Research at Stanford University.
References
[1] M. Massot, F. Laurent, S. de Chaisemartin, L. Fréret, and D. Kah. Eulerian multi-fluid models:
modeling and numerical methods. In Modelling and Computation of Nanoparticles in Fluid Flows,
Lectures Notes of the von Karman Institute. NATO RTO-EN-AVT-169, 2009. Available online at
http://hal.archives-ouvertes.fr/hal-00423031/en/.
[2] D. Kah. Prise en compte des aspects polydispersés dans le contexte d'une approche couplée
Eulérienne-Lagrangienne pour la modélisation d'un jet de carburant dans les moteurs à combustion
interne (Taking into account polydispersity in the framework of a coupled Euler-Lagrange approach
for the modeling of liquid fuel injection in internal combustion engines). PhD thesis, Ecole Centrale
Paris, France, 2010. in english.
[3] M. Massot, F. Laurent, D. Kah, and S. de Chaisemartin. A robust moment method for evaluation of
the disappearance rate of evaporating sprays. SIAM Journal of APplied Mathematics, 70(8):3203-
3234, 2010. http://hal.archives-ouvertes.fr/hal-00332423/en/.
[4] D. Kah, F. Laurent, M. Massot, and S. Jay. A high order moment method simulating evaporation
and transport of a polydisperse liquid spray. Journal of Computational Physics, 2010. Submitted
for publication, available on HAL http://hal.archives-ouvertes.fr/hal-00536512/en/.
[5] D. Kah, F. Laurent, L. Fréret, S. de Chaisemartin, R. O. Fox, J. Reveillon, and M. Massot. Eulerian
quadrature-based moment models for dilute polydisperse evaporating sprays. Flow, Turbulence and
Combustion, 85(3-4):649-676, 2010. http://hal.archives-ouvertes.fr/hal-00449866/en/.
1
[6] S. de Chaisemartin. Modèles eulériens et simulation numérique de la dispersion turbulente de brouillards
qui s'évaporent. PhD thesis, Ecole Centrale Paris, France, 2009. in english, http://tel.archivesouvertes.
fr/tel-00443982/en/.
[7] S. de Chaisemartin, L. Fréret, D. Kah, F. Laurent, R.O. Fox, J. Reveillon, and M. Massot. Eulerian
models for turbulent spray combustion with polydispersity and droplet crossing. Comptes Rendus
Mécanique, 337:438-448, 2009. Special Issue 'Combustion for Aerospace Propulsion'.
[8] L. Fréret, C. Lacour, S. de Chaisemartin, S. Ducruix, D. Durox, F. Laurent, and M. Massot. Pulsated
free jets with polydisperse spray injection: Experiments and numerical simulations. Proceedings of
the Combustion Institute, 32(2):2215-2222, 2009.
[9] C. Lacour, D. Durox, S. Ducruix, and M Massot. Interaction of a polydisperse spray with vortices.
Experiments in Fluids, 2011. Available online.
[10] L. Fréret, O. Thomine, J. Reveillon, S. de Chaisemartin, F. Laurent, and M. Massot. On the role of
preferential segregation in flame dynamics in polydisperse evaporating sprays. In Proceedings of the
Summer Program 2010, Center for Turbulence Research, Stanford University, pages 1-10, 2011.