P. J. Vialle, E. Leroy, and A. Meslem, Diffusion device with lobe inserts and fan coil comprising such a device, European Patent Office, 2015.

P. Bragança, Airflow characteristics and thermal comfort generated by a multicone ceiling diffuser with and without inserted lobes. Building and Environment, vol.108, pp.143-158, 2016.

P. Bragança, Passive control strategy for mixing ventilation in heating mode using lobed inserts. Energy and Buildings, vol.133, pp.512-528, 2016.

A. Meslem, I. Nastase, and F. Allard, Passive mixing control for innovative air diffusion terminal devices for buildings. Building and Environment, vol.45, pp.2679-2688, 2010.
DOI : 10.1016/j.buildenv.2010.05.028

I. Nastase, Lobed grilles for high mixing ventilation-An experimental analysis in a full scale model room. Building and Environment, vol.46, pp.547-555, 2011.

I. Nastase, A. Meslem, and P. Gervais, Primary and secondary vortical structures contribution in the entrainement of low Reynolds number jet flows, Experiments in Fluids, vol.44, issue.6, pp.1027-1033, 2008.

A. Meslem, M. El-hassan, and I. Nastase, Analysis of jet entrainment mechanism in the transitional regime by time-resolved PIV, Journal of Visualization, vol.14, issue.1, pp.41-52, 2011.

I. Nastase and A. Meslem, Vortex dynamics and mass entrainment in turbulent lobed jets with and without lobe deflection angles, Experiments in Fluids, vol.48, issue.4, pp.693-714, 2010.
DOI : 10.1007/s00348-009-0762-y

A. Meslem, A comparison of three turbulence models for the prediction of parallel lobed jets in perforated panel optimization. Building and Environment, vol.46, pp.2203-2219, 2011.

G. Cao, A review of the performance of different ventilation and airflow distribution systems in buildings. Building and Environment, vol.73, pp.171-186, 2014.

Y. K. Chuah, S. C. Hu, and J. M. Barber, Airflow Characteristics of Circular Ceiling Diffusers, International Journal on Architectural Science, vol.1, pp.59-67, 2000.

S. Shakerin and P. L. Miller, Experimental study of Vortex Diffusers, 1996 Annual Conference, 1996.
DOI : 10.2172/137437

URL : https://digital.library.unt.edu/ark:/67531/metadc624458/m2/1/high_res_d/137437.pdf

H. B. Awbi, Swirl diffuser DHV-Technical documentation, Ventilation of Buildings, 2003.

, Space air diffusion, ASHRAE Handbook, 2009.

A. K. Gupta, D. G. Lilley, and N. Syred, Swirl flows, 1984.

N. A. Chigier and A. Chervinsky, Experimental Investigation of Swirling Vortex Motion in Jets, Journal of Applied Mechanics, vol.34, issue.2, pp.443-451, 1967.

M. A. Aziz, Experimental and Numerical Study of A/C Outletsand Its Impact on Room Airflow Characteristics, World Academy of Science, Engineering and Technology, vol.6, pp.387-396, 2012.

B. Sajadi, M. H. Saidi, and A. Mohebbian, Numerical investigation of the swirling air diffuser: Parametric study and optimization. Energy and Buildings, vol.43, pp.1329-1333, 2011.

E. Tavakoli and R. Hosseini, Large eddy simulation of turbulent flow and mass transfer in far-field of swirl diffusers, Energy and Buildings, vol.59, pp.194-202, 2013.

X. Li, Total air age: an extension of the air age concept. Building and Environment, vol.38, pp.1263-1269, 2003.

G. Gan, Effective depth of fresh air distribution in rooms with single-sided natural ventilation, Energy and Buildings, vol.31, issue.1, pp.65-73, 2000.

. Iso, Ergonomics of the thermal environment-Analytical determination and interpretation of thermal comfort using calculation of the PMV and PPD indices and local thermal comfort criteria, 2005.

A. Ashrae, Thermal environmental conditions for human occupancy, pp.55-2013, 2013.

A. Dogeanu, Conception of a simplified seated thermal manikin for CFD validation purposes, Romanian Journal of Civil Engineering, issue.5, 2014.

A. , Documentation technique diffuseur série AF/AT 842

P. O. Fanger, Thermal Comfort, Analysis and Applications in Environmental Engineering, 1970.

. Iso, Ergonomics of the thermal environment-Instruments for measuring physical quantities, in ISO 7726, ASHRAE. Thermal comfort tool, vol.29, 1998.

, Acoustique-Mesurages in situ de l'isolement aux bruits aériens et de la transmission des bruits de choc ainsi que du bruit des équipements-Méthode de contrôle, AFNOR, Ventilation des bâtiments-Bouches d'air-Essais aérodynamiques et caractérisation pour applications en diffusion à mélange, 2004.

, Ministère de l'Écologie du Développement durable et de l'Énergie Ministère du Logement et de l'Égalité des territoires, Guide de Mesures Acoustiques, 2014.

G. Cao, M. S. , J. Kurnitski, M. Ruponen, and O. Seppanen, Particle image velocimetry (PIV) application in the measurement of indoor air distribution by an active chilled beam. Building and Environment, vol.45, pp.1932-1940, 2010.

G. Cao, M. S. , J. Kurnitski, M. Ruponen, and O. Seppanen, PIV measurement of the attached plane jet velocity field at a high turbulence intensity level in a room, International Journal of Heat and Fluid Flow, vol.31, issue.5, pp.897-908, 2010.

M. Raffel, Particle Image Velocimetry A Practical Guide, 2007.

C. M. Borges, A. R. Gaspar, and D. A. Quintela, Analysis of the interaction of thermal plumes within office environment using a thermal manikin, 7th International Thermal Manikin and Modelling Meeting, 2008.

N. Rajaratnam, Turbulent jets, 1976.

A. Verhoff, The two-dimensional turbulent wall jet with and without an external stream, 1963.