Free Access
Issue
Mechanics & Industry
Volume 19, Number 1, 2018
Article Number 104
Number of page(s) 11
DOI https://doi.org/10.1051/meca/2016078
Published online 31 August 2018
  1. A. Dia, Simulation de jets d'air lobés pour l'optimisation des Unités Terminales de Diffusion d'Air, Doctorat en sciences, Université de la Rochelle, 2012 [Google Scholar]
  2. P.E. Dimotakis, The mixing transition in turbulents flows, J. Fluid Mech. 409 (2000) 68–69 [CrossRef] [Google Scholar]
  3. A. Meslem, I. Nastase, F. Allard, Passive mixing control for innovative air diffusion terminal devices for buildings, Build. Environ. 45 (2010) 2679–2688 [CrossRef] [Google Scholar]
  4. A. Meslem, M. Elhassan, I. Nastase, Analysis of jet entrainment mechanism in the transitional regime by time-resolved PIV, J. Vis. 14 (2011) 41–52 [CrossRef] [Google Scholar]
  5. M. Elhassan, A. Meslem, K. Abed-Meraïm, Experimental investigation of the flow in the near-field of a cross-shaped orifice jet, Phys. Fluids 23 (2011) 1–16 [Google Scholar]
  6. I. Nastase, A. Meslem, V. Iordach, I. Colda, Lobed grilles for high mixing ventilation − an experimental analysis in a full scale model room, Build. Environ. 46 (2011) 547–555 [CrossRef] [Google Scholar]
  7. A. Meslem, F. Bode, I. Nastase, O. Martin, Optimization of lobed perforated panel diffuser: numerical study of orifice geometry, Mod. Appl. Sci. 6 (2012) 1–59 [CrossRef] [Google Scholar]
  8. I. Nastase, Analyse des jets lobés en vue de leur intégration dans les Unités Terminales de Diffusion d'air, Thèse de doctorat en science, Université de la Rochelle, 2007 [Google Scholar]
  9. A. Meslem, I. Nastase, K. Abed-Meraim, Experimental investigation of the mixing performance of a lobed jet flow, J. Eng. Phys. Thermophys. 81 (2008) 106–111 [CrossRef] [Google Scholar]
  10. I. Nastase, A. Meslem, Vortex dynamics and mass entrainment in turbulent lobed jets with and without lobe deflection angles, Exp. Fluids 48 (2010) 693–714 [CrossRef] [Google Scholar]
  11. M. El Hassan, A. Meslem, Time-resolved stereoscopic particle image velocimetry investigation of the entrainment in the near field of circular and daisy-shaped orifice jets, Phys. Fluids 22 (2010) 35–107 [CrossRef] [Google Scholar]
  12. A. Meslem, A. Dia, C. Beghein, M. El Hassan, I. Nastase, P.J. Vialle, A comparison of three turbulence models for the prediction of parallel lobed jets in perforated panel optimization, Build. Environ. 46 (2011) 2203–2219 [CrossRef] [Google Scholar]
  13. Y. Yuan, Jet fluid mixing control through manipulation of inviscid flow structures, PhD Thesis, Virginia Polytechnic Institute and State University, 2000 [Google Scholar]
  14. H. Hu, T. Kobayashi, T. Saga, S. Segawa, N. Taniguchi, Particle image velocimetry and planar laser-induced fluorescence measurements on lobed jet mixing flows, Exp. Fluids 29 (2000) 141–157 [CrossRef] [Google Scholar]
  15. H. Hu, T. Kobayashi, N. Taniguchi, A study on a lobed jet mixing flow by using stereoscopic particle image velocimetry technique, Phys. Fluids 13 (2001) 25–34 [Google Scholar]
  16. A. Bennia, L. Loukarfi, A. Khelil, M. Braikia, S. Rahal, Y. Bouhamidi, Jet turbulent à diffuseur muni de lobes: application au confort dans les locaux à usage d'habitation, Rev. Nat. Technol. C- Sci. Environ. 13 (2015) 34–38 [Google Scholar]
  17. A. Bennia, L. Loukarfi, M. Braikia, A. Khelil, H. Naji, Etude expérimentale d'un jet turbulent à diffuseur muni de lobes: Application au confort dans les locaux à usage d'habitation, Rev. Nat. Technol. A- Sci. Fondam. Eng. 13 (2015) 54–58 [Google Scholar]
  18. A. Meslem, I. Nastase, O. Martin, Sur la validation expérimentale des modèles de turbulence. Application à un jet d'air lobé, in: XXXe Rencontres AUGC-IBPSA, 2012 [Google Scholar]
  19. A. Meslem, F. Bode, C. Croitoru, I. Nastase, Comparison of turbulence models in simulating jet flow from a cross-shaped orifice, Eur. J. Mech. 44 (2014) 100–120 [CrossRef] [Google Scholar]
  20. M. Braikia, L. Loukarfi, A. Khelil, A. Naji, Improvement of thermal homogenization using multiple swirling jets, Therm. Sci. 16 (2012) 239–250 [CrossRef] [Google Scholar]
  21. A. Bennia, S. Rahal, La convection naturelle dans une cavité simulant un thermosiphon, Editions Universitaires Europeennes. (2014) 1–140 [Google Scholar]
  22. B.D. Pratte, J.R. Keffer, The swirling turbulent jet, J. Int. Eng. Trans. J.S.M.E. (1972) 739–748. [Google Scholar]
  23. D. Choudhury, Introduction to the renormalization group method and turbulence modeling, Fluent Inc, Technical Memorandum (1993) TM-107 [Google Scholar]
  24. F.R. Menter, Zonal two equation k-ω turbulence models for aerodynamic flows, (1993), NASA-TM-111629, NAS 1.15:111629, AIAA Paper 93-2906 [Google Scholar]
  25. P. Bradshaw, Turbulent secondary flows, Annu. Rev. Fluid Mech. 19 (1987) 53–74 [CrossRef] [Google Scholar]
  26. Gambit, A CFD preprocess gambit 2.0 User's Guide, USA, 2002 [Google Scholar]

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