]. Régime-de-fractionnement-en-fonction-de-w-e-g30, 53 II.10 Limites qualitatives des régimes de fractionnement [74 54 II.11 Les différents régimes d'écoulement pour un jet creux 58 II.14 Oscillation d'une goutte autour de sa position d'équilibre [69, 59 II.15 Représentation schématique des ondes se formant à la surface du jet, p.61

]. Méthode-de-suivi-de-front11, 75 II.23 Représentation de la notion de maillage interfacial [99

.. Principe-de-collision, 113 IV.2 Modélisation de l'écoulement interne et externe d'une buse à turbulence [15, p.119

.. Coupe-longitudinale-du-domaine-d-'étude, 132 VI.2 Champ de la fraction massique liquide moyenne Y, p.133

.. Profils-transversaux-de-la-fraction-volumique-liquide-moyenne, 134 VI.6 Fraction volumique ? en fonction de la fraction massique, p.135

.. Vecteurs-vitesse-dans-la-chambre-de-swirl-et-près-du-nez-de-la-buse, 137 VI.10 Changement de profils de la composante axiale de la, p.138

V. Profils-transversaux-de-?-t and .. , 140 VI.15 Profils transversaux de la composante u 2, 140 VI.16 Profils transversaux de la composante v 2 141 VI.17 Profils transversaux de la composante w 2 142 VI.20 Profils transversaux de la composante v 143 VI.21 Comparaison des profils transversaux de ? pour les deux approches en Z = 2 D col . . 143 VI.22 Profils transversaux de la surface volumique, p.146

V. Dcol and .. , 41 Influence de la constante C sur le profil transversal du rayon moyen des gouttes r en Z = 2, p.156

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