Evaluation experimentale de la qualite de l’air interieur : decharge particulaire en modele reduit controle

K. Limam, M. Savytskyi, O. Koval, M. Babenko, A. Konoplyanik, B. Benhamou

Abstract


This study we carried out LaSIE has allowed us to expand our investigations to achieve controlled deposition constants for various types of materials commonly used  standard  in  the  building  assessment.  This  contribution  homogeneous conditions  in  temperature  and  humidity  has  helped  us  understand  the  types (electrostatic material: glass, linoleum) that despite their low roughness, remain very attractive vis-à-vis the airborne dust. The prospects of this work are to take into account new parameters of indoor air temperature and relative humidity.


Keywords


Temperature parameters; dust; temperature; relative humidity;

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References


MONN, C. and Junker, M. Indoor/Outdoor Ratios, Deposition and Resuspension of Fine and Coarse Particles 8th International Conference on Indoor Air Quality and Climate, 1999.

LANGE C. Indoor Deposition and the Protective Effect of Houses against Airborne Pollution. Ph.D Thesis (Riso National Laboratory), Denmark, Mai 1995.

NAZAROFF W.W., Gadgil A.J. and Weschler C.J. Critique of the use of Deposition Velocity in Modelling Indoor Air Quality, Modelling of Indoor Air Quality and Exposure, ASTM STP 1205, Niren L. Nadga, Ed., American Society for Testing and Material, Philadelphia, pp 81-104, 1993.

OFFERMANN, F.J., Sextro, R.G., Fisk, W.J.,Grimsrud, D.T., Nazaroff, W.W., Nero, A.V., Revzan, K.L. and Yater J. Control of Respirable Particles in Indoor Air with Portable Air Cleaners. Atmospheric Environment, Vol. 19, n° 11, pp. 1761-1771, 1985.

THATCHER, T.L. and Layton, D.W. Deposition, Resuspension and Penetration of Particles within a Residence. Atmospheric Environment, Vol. 29, pp. 1487-1497, 1995.

THATCHER, T.L., Fairchild, W.A. and Nazaroff, W.W. Particle Deposition from Natural Convection Enclosure Flow Onto Smooth Surfaces. Aerosol Science and Technology, Vol. 25, pp. 359-374, 1996.

ROED, J. and Cannell, R.J. The Deposition of Beryllium - 7 Marked Particles on Surfaces in Unfurnished and Furnished Rooms.Proceedings of CEC/OECD Workshop on Recent Advances in Reactor Accident Consequence Assessment (Rome), 1988.

BYRNE M.A., An Experimental Study of the Deposition of Aerosol on Indoor Surfaces. Thesis for the degree of Doctor of Philosophy of the College of London 1995

ADAM N. « Deposition of aerosol particles in ventilation ducts ». Proceeding of Clima 2000, the 9th

International Conference on Heating, Ventilating and Air Conditionning, London, 1993.

NAZAROFF, W.W. et G.R. Cass Mass transport aspect of pollutant removal at indoor surfaces, Environment International, 15, 1989.

OKUYANNA, K., Kousaka, Y., Yamamoto, S. and Hosokaya, T. Particle Loss of Aerosols with Particle Diameters between 6 and 2000 nm in a Stirred Tank Journal of Colloid and Interface Science, Vol. 110, pp. 214-223, 1986.

HOLUB, R.F., Raes F., Van Dingenen, R. and Vanmarcke, H. Deposition of Aerosols and Unattached Radon Daughters in Different Chambers : Theory and Experiment.Radiation Protection Dosimetry, Vol. 24, pp. 217-220, 1988.

M. Abadie. « Contribution à l’étude de la pollution particulaire : rôle des parois, rôle de la ventilation ». Thèse Université de La Rochelle, 2000.

K. Limam « Transferts de particules dans les ambiances ventilées» HDR Université de la Rochelle, le 21 Juin 2004.


GOST Style Citations


1.  MONN, C. and Junker, M. Indoor/Outdoor Ratios, Deposition and Resuspension of Fine and Coarse Particles 8th International Conference on Indoor Air Quality and Climate, 1999.

2.  LANGE C. Indoor Deposition and the Protective Effect of Houses against  Airborne Pollution. Ph.D Thesis (Riso National Laboratory), Denmark, Mai 1995.

3.  NAZAROFF W.W., Gadgil A.J. and Weschler C.J. Critique of the use of Deposition Velocity in Modelling Indoor Air Quality, Modelling of Indoor Air Quality and Exposure, ASTM STP 1205, Niren L. Nadga, Ed., American Society for Testing and Material, Philadelphia, pp 81-104, 1993.

4.  OFFERMANN, F.J., Sextro, R.G., Fisk, W.J.,Grimsrud, D.T., Nazaroff, W.W., Nero, A.V., Revzan, K.L. and Yater J.    Control of Respirable Particles in Indoor Air with Portable Air Cleaners.  Atmospheric Environment, Vol. 19, n° 11, pp. 1761-1771, 1985.

5.  THATCHER, T.L. and Layton, D.W. Deposition, Resuspension and Penetration of Particles within a Residence. Atmospheric Environment, Vol. 29, pp. 1487-1497, 1995.

6.  THATCHER, T.L., Fairchild, W.A. and Nazaroff, W.W. Particle Deposition from Natural Convection Enclosure Flow Onto Smooth Surfaces. Aerosol Science and Technology, Vol. 25, pp. 359-374, 1996.

7.  ROED, J. and Cannell, R.J. The Deposition of Beryllium - 7 Marked Particles on Surfaces in Unfurnished and Furnished Rooms.Proceedings of CEC/OECD Workshop on Recent Advances in Reactor Accident Consequence Assessment (Rome), 1988.

8.  BYRNE M.A., An Experimental Study of the  Deposition of Aerosol on Indoor Surfaces. Thesis for the degree of Doctor of Philosophy of the College of London 1995

9.  ADAM N. « Deposition of aerosol particles in ventilation ducts ». Proceeding of Clima 2000, the 9th

International Conference on Heating, Ventilating and Air Conditionning, London, 1993.

10.  NAZAROFF, W.W. et G.R. Cass  Mass transport aspect of pollutant removal at indoor surfaces, Environment International, 15, 1989.

11.  OKUYANNA, K., Kousaka, Y., Yamamoto, S. and Hosokaya, T. Particle Loss of Aerosols with Particle Diameters between 6 and 2000 nm in a Stirred Tank Journal of Colloid and Interface Science, Vol. 110, pp. 214-223, 1986.

12.  HOLUB, R.F., Raes F., Van Dingenen, R. and Vanmarcke, H. Deposition of Aerosols and Unattached Radon Daughters in Different Chambers : Theory and Experiment.Radiation Protection Dosimetry, Vol. 24, pp. 217-220, 1988.

13.  M. Abadie. « Contribution à l’étude de la pollution particulaire : rôle des parois, rôle de la ventilation ». Thèse Université de La Rochelle, 2000.

14.  K. Limam  « Transferts de particules dans les ambiances ventilées» HDR Université de la Rochelle, le 21 Juin 2004.



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