A numerical study of indoor air quality in a ventilated room using different strategies of ventilation

L. Koufi; Z. Younsi; Y. Cherif; H. Naji; M. El Ganaoui

doi:10.1051/meca/2016043

All issues

Volume 18 / No 2 (2017)

Mechanics & Industry, 18 2 (2017) 221

References

Free Access

Issue		Mechanics & Industry Volume 18, Number 2, 2017


Article Number		221
Number of page(s)		9
DOI		https://doi.org/10.1051/meca/2016043
Published online		16 March 2017

Q.H. Deng, J. Zhou, C. Mei, Y.-M. Shen, Fluid, heat and contaminant transport structures of laminar double-diffusive mixed convection in a two-dimensional ventilated enclosure, Int. J. Heat Mass Transf. 47 (2004) 5257–5269 [Google Scholar]
H.B. Awbi, Ventilation of Buildings, 2nd ed. London; New York: Routledge, 2003 [Google Scholar]
K.C. Chung, S.-P. Hsu, Effect of ventilation pattern on room air and contaminant distribution, Build. Environ. 36 (2001) 989–998 [Google Scholar]
E. Bjørn, P.V. Nielsen, Dispersal of exhaled air and personal exposure in displacement ventilated rooms, Indoor Air 12 (2002) 147–164 [CrossRef] [PubMed] [Google Scholar]
J. Moureh, D. Flick, Airflow characteristics within a slot-ventilated enclosure, Int. J. Heat Fluid Flow 26 (2005) 12–24 [Google Scholar]
Z.F. Tian, J.Y. Tu, G.H. Yeoh, R.K.K. Yuen, On the numerical study of contaminant particle concentration in indoor airflow, Build. Environ. 41 (2006) 1504–1514 [Google Scholar]
J.D. Posner, C.R. Buchanan, D. Dunn-Rankin, Measurement and prediction of indoor air flow in a model room, Energy Build. 35 (2003) 515–526 [Google Scholar]
K. Niachou, S. Hassid, M. Santamouris, I. Livada, Experimental performance investigation of natural, mechanical and hybrid ventilation in urban environment, Build. Environ. 43 (2008) 1373–1382 [Google Scholar]
D. Liu, F.-Y. Zhao, G.-F. Tang, Numerical analysis of two contaminants removal from a three-dimensional cavity, Int. J. Heat Mass Transf. 51 (2008) 378–382 [Google Scholar]
Y.C. Tung, Y.-C. Shih, S.-C. Hu, Y.-L. Chang, Experimental performance investigation of ventilation schemes in a private bathroom, Build. Environ. 45 (2010) 243–251 [Google Scholar]
D. Liu, F.-Y. Zhao, H.Q. Wang, E. Rank, Turbulent transport of airborne pollutants in a residential room with a novel air conditioning unit, Int. J. Refrig. 35 (2012) 1455–1472 [Google Scholar]
A. Jurelionis, L. Gagyte, T. Prasauskas, D. Ciuzas, E. Krugly, L. Šeduikyte, D. Martuzevicius, The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: The experimental approach, Energy Build. 86 (2015) 305–313 [Google Scholar]
N.A. Rodríguez, J.F. Hinojosa, J. Xamán, Comparative study between experimental data and numerical results of turbulent mixed convection in a ventilated cavity, J. Heat Transf. 137 (2015) 054501–054501 [CrossRef] [Google Scholar]
V. Yakhot, S.A. Orszag, S. Thangam, T.B. Gatski, C.G. Speziale, Development of turbulence models for shear flows by a double expansion technique, Phys. Fluid A 4 (1992) 1510–1520 [CrossRef] [MathSciNet] [Google Scholar]
R.A.W.M. Henkes, F.F. Van Der Vlugt, C.J. Hoogendoorn, Natural-convection flow in a square cavity calculated with low-Reynolds-number turbulence models, Int. J. Heat Mass Transf. 34 (1991) 377–388 [Google Scholar]
G.D.R.J.P. van Doormaal, Enhancements of the SIMPLE Method for Predicting Incompressible Fluid Flows, Numer. Heat Transf. 7 (1984) 147–163 [Google Scholar]
C. Béghein, F. Haghighat, F. Allard, Numerical study of double-diffusive natural convection in a square cavity, Int. J. Heat Mass Transf. 35 (1992) 833–846 [Google Scholar]
J. Xamán, A. Ortiz, G. Álvarez, Y. Chávez, Effect of a contaminant source (CO on the air quality in a ventilated room, Energy 36 (2011) 3302–3318 [CrossRef] [Google Scholar]

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[1] Q.H. Deng, J. Zhou, C. Mei, Y.-M. Shen, Fluid, heat and contaminant transport structures of laminar double-diffusive mixed convection in a two-dimensional ventilated enclosure, Int. J. Heat Mass Transf. 47 (2004) 5257–5269 [Google Scholar]

[2] H.B. Awbi, Ventilation of Buildings, 2nd ed. London; New York: Routledge, 2003 [Google Scholar]

[3] K.C. Chung, S.-P. Hsu, Effect of ventilation pattern on room air and contaminant distribution, Build. Environ. 36 (2001) 989–998 [Google Scholar]

[4] E. Bjørn, P.V. Nielsen, Dispersal of exhaled air and personal exposure in displacement ventilated rooms, Indoor Air 12 (2002) 147–164 [CrossRef] [PubMed] [Google Scholar]

[5] J. Moureh, D. Flick, Airflow characteristics within a slot-ventilated enclosure, Int. J. Heat Fluid Flow 26 (2005) 12–24 [Google Scholar]

[6] Z.F. Tian, J.Y. Tu, G.H. Yeoh, R.K.K. Yuen, On the numerical study of contaminant particle concentration in indoor airflow, Build. Environ. 41 (2006) 1504–1514 [Google Scholar]

[7] J.D. Posner, C.R. Buchanan, D. Dunn-Rankin, Measurement and prediction of indoor air flow in a model room, Energy Build. 35 (2003) 515–526 [Google Scholar]

[8] K. Niachou, S. Hassid, M. Santamouris, I. Livada, Experimental performance investigation of natural, mechanical and hybrid ventilation in urban environment, Build. Environ. 43 (2008) 1373–1382 [Google Scholar]

[9] D. Liu, F.-Y. Zhao, G.-F. Tang, Numerical analysis of two contaminants removal from a three-dimensional cavity, Int. J. Heat Mass Transf. 51 (2008) 378–382 [Google Scholar]

[10] Y.C. Tung, Y.-C. Shih, S.-C. Hu, Y.-L. Chang, Experimental performance investigation of ventilation schemes in a private bathroom, Build. Environ. 45 (2010) 243–251 [Google Scholar]

[11] D. Liu, F.-Y. Zhao, H.Q. Wang, E. Rank, Turbulent transport of airborne pollutants in a residential room with a novel air conditioning unit, Int. J. Refrig. 35 (2012) 1455–1472 [Google Scholar]

[12] A. Jurelionis, L. Gagyte, T. Prasauskas, D. Ciuzas, E. Krugly, L. Šeduikyte, D. Martuzevicius, The impact of the air distribution method in ventilated rooms on the aerosol particle dispersion and removal: The experimental approach, Energy Build. 86 (2015) 305–313 [Google Scholar]

[13] N.A. Rodríguez, J.F. Hinojosa, J. Xamán, Comparative study between experimental data and numerical results of turbulent mixed convection in a ventilated cavity, J. Heat Transf. 137 (2015) 054501–054501 [CrossRef] [Google Scholar]

[14] V. Yakhot, S.A. Orszag, S. Thangam, T.B. Gatski, C.G. Speziale, Development of turbulence models for shear flows by a double expansion technique, Phys. Fluid A 4 (1992) 1510–1520 [CrossRef] [MathSciNet] [Google Scholar]

[15] R.A.W.M. Henkes, F.F. Van Der Vlugt, C.J. Hoogendoorn, Natural-convection flow in a square cavity calculated with low-Reynolds-number turbulence models, Int. J. Heat Mass Transf. 34 (1991) 377–388 [Google Scholar]

[16] G.D.R.J.P. van Doormaal, Enhancements of the SIMPLE Method for Predicting Incompressible Fluid Flows, Numer. Heat Transf. 7 (1984) 147–163 [Google Scholar]

[17] C. Béghein, F. Haghighat, F. Allard, Numerical study of double-diffusive natural convection in a square cavity, Int. J. Heat Mass Transf. 35 (1992) 833–846 [Google Scholar]

[18] J. Xamán, A. Ortiz, G. Álvarez, Y. Chávez, Effect of a contaminant source (CO on the air quality in a ventilated room, Energy 36 (2011) 3302–3318 [CrossRef] [Google Scholar]