. Wd, J. S. Baines, and . Turner, Turbulent buoyant convection from a source in a confined region, J. Fluid Mech, vol.37, pp.51-80, 1969.

G. F. Pf.-linden, D. A. Lane-serff, and . Smeed, Emptying filling boxes, the fluid mechanics of natural ventilation, J. Fluid Mech, vol.212, p.251, 1990.

. Pf and . Linden, The fluid mechanics of natural ventilation, Annual Reviews, vol.31, pp.201-238, 1999.

D. Etheridge, A perspective on fifty years of natural ventilation research, Build. and Environ, vol.91, pp.51-60, 2015.

. Dt, P. F. Bolster, and . Linden, Contaminants in ventilated filling boxes, J. Fluid Mech, vol.591, pp.97-116, 2007.

A. Lenoir, G. Baird, and F. Garde, Post-occupancy evaluation and experimental feedback of a net zero-energy building in a tropical climate
URL : https://hal.archives-ouvertes.fr/hal-00918157

, Architectural Science Review, vol.55, pp.156-168, 2012.

P. Karava, T. Stathopoulos, and A. K. Athienitis, Airflow assessment in cross-ventilated buildings with operable façade elements, p.258

. Environ, , vol.46, pp.266-279, 2011.

Y. Tominaga and B. Blocken, Wind tunnel experiments on cross-ventilation flow of a generic building with contaminant dispersion in unsheltered 260 and sheltered conditions, Build. and Environ, vol.92, pp.452-461, 2015.

Y. Tominaga and B. Blocken, Wind tunnel analysis of flow and dispersion in cross-ventilated isolated buildings: Impact of opening positions, J, vol.262

, Wind Eng. Ind. Aerodyn, vol.155, pp.74-88, 2016.

. Sd, A. W. Fitzgerald, and . Woods, On the transition from displacement to mixing ventilation with a localized heat source, Build. and Environ, vol.42, pp.2210-2217, 2007.

. Aw, C. P. Woods, J. C. Caulfield, and . Phillips, Blocked natural ventilation: The effect of a source mass flux, J. Fluid Mech, vol.495, pp.119-133, 2003.

O. Vauquelin, R. Mehaddi, E. Casalé, and E. Valério, Non-Boussinesq experiments on natural ventilation in a 2D semi-confined enclosure, 267 International Journal of Heat and Fluid Flow, pp.1-5, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01475310

J. Craske, . Go, and . Hughes, Does a thermal stratification make ventilation more robust to wind gusts?

. Gr, P. F. Hunt, and . Linden, The Fluid Mechanics of Natural Ventilation -displacement ventilation by buoyancy-driven flows assisted by wind, p.271

, Build. and Environ, vol.34, pp.707-721, 1999.

. Gr, P. F. Hunt, and . Linden, Steady-state flows in an enclosure ventilated by buoyancy forces assisted by wind, J. Fluid Mech, vol.426, pp.355-386, 2001.

Y. Li and A. Delsante, Natural ventilation induced by combined wind and thermal forces, Build. and Environ, vol.36, pp.59-71, 2001.

B. Lishman and A. W. Woods, On transitions in natural ventilation flow driven by changes in the wind, Build. and Environ, vol.44, pp.666-673, 2009.

H. Chen, N. Liu, and W. Chowb, Wind effects on smoke motion and temperature of ventilation-controlled fire in a two-vent compartment, Build. 276 and Environ, vol.44, pp.2521-2526, 2009.

. Gr, P. F. Hunt, and . Linden, Displacement and mixing ventilation driven by opposing wind and buoyancy, J. Fluid Mech, vol.527, pp.27-55, 2004.

W. Gao, N. Liu, M. Delichatsios, X. Yuan, Y. Bai et al., Fire spill plume from a compartment with dual symmetric openings 279 under cross wind, Combustion and Flame, pp.1-13, 2016.

L. Li, Z. Gao, J. Ji, . Zhu, D. Wang et al., Experimental study of fire growth and ejected plume in a cross-ventilation compartment under 281 wind condition, Fire and Materials, pp.1-14, 2019.

. Br and . Morton, Forced plumes, J. Fluid Mech, vol.5, pp.151-163, 1959.

K. T. Andersen, Airflow rates by combined natural ventilation with opposing wind -unambiguous solutions for practical use, p.285

. Environ, , vol.42, pp.534-542, 2007.

A. Andersen, M. Bjerre, Z. Chen, P. Heiselberg, and Y. Li, Experimental study of wind-opposed buoyancy-driven natural ventilation, Proceedings 287 of the 21st AIVC conference, vol.33, pp.1-10, 2000.

D. Costola, B. Blocken, and J. L. Hensen, Overview of pressure coefficient data in building energy simulation and airflow network programs

. Build and . Environ, , vol.44, pp.2027-2036, 2009.

D. Etheridge, Wind turbulence and multiple solutions for opposing wind and buoyancy, International Journal of Ventilation, vol.7, pp.309-320, 2016.

O. Vauquelin, G. Michaux, and C. Lucchesi, Scaling laws for a buoyant release used to simulate fire-induced smoke in laboratory experiments, Fire 292 Safety J, vol.44, pp.665-667, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00406215