D. Thèse-de, Chapitres 5 et 10, Faculté polytechnique de Mons

D. W. Cooper, Prediction of the rates of chemical transformation of sodium fire aerosols, Proc. CSNI Specialist Meeting on Nuclear Aerosols in Reactor Safety, pp.181-195, 1980.

P. V. Danckwerts, T. New-york-gilardi, A. Chassery, R. Baskaran, V. Subramanian et al., Modelling of the chemical behavior of sodium fire aerosols during atmospheric dispersion, Int. Conf. Fast Reactors and Related Fuels, IAEA, 1970.

W. J. Hamer and Y. Wu, Osmotic coefficients and mean activity coefficients of uni-univalent electrolytes in water at 25 °C, J. Phys. Chem. Ref. Data, vol.1, pp.1047-1099, 1972.

C. Hofmann, S. Jordan, and W. Linder, Chemical reactions of sodium fire aerosols in the free atmosphere, J. Aerosol Sci, vol.10, pp.191-192, 1979.

D. R. Lide, R. H. Hendriksz, and H. Et-kramers, Absorption of carbon dioxide in jets and falling films of electrolyte solutions, with and without chemical reaction, CRC Handbook of chemistry and physics, 79 ème édition, vol.10, pp.88-104, 1959.

R. Pohorecki and W. Moniuk, Kinetics of reaction between carbon dioxide and hydroxyl ions in aqueous electrolyte solutions, Chem. Eng. Sci, vol.43, pp.1677-1684, 1988.

S. Ramsdale, The chemical conversion and dispersion of toxic sodium fire aerosols in the atmosphere, J. Aerosol Sci, vol.20, pp.1401-1404, 1989.

A. Schumpe, The estimation of gas solubilities in salt solutions, Chem. Eng. Sci, vol.48, issue.1, pp.153-158, 1993.

V. Subramanian, P. Sahoo, N. Malathi, R. Ananthanarayanan, R. Baskaran et al., Studies on chemical speciation of sodium aerosols produces in sodium fire, Nuclear Technology, vol.165, pp.257-269, 2009.

W. G. Whitman, The two-film theory of gas absorption, Chem. Met. Eng, vol.29, pp.146-148, 1923.