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The role of diffusion on the interface thickness in a ventilated filling box

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posted on 2011-10-11, 14:23 authored by N.B. Kaye, M.R. Flynn, Malcolm CookMalcolm Cook, Y. Ji
We examine the role of diffusivity, whether molecular or turbulent, on the steady-state stratification in a ventilated filling box. The buoyancy-driven displacement ventilation model of Linden et al. (J. Fluid Mech., vol. 212, 1990, p. 309) predicts the formation of a two-layer stratification when a single plume is introduced into an enclosure with vents at the top and bottom. The model assumes that diffusion plays no role in the development of the ambient buoyancy stratification: diffusion is a slow process and the entrainment of ambient fluid into the plume from the diffuse interface will act to thin the interface resulting in a near discontinuity of density between the upper and lower layers. This prediction has been corroborated by small-scale salt bath experiments; however, full-scale measurements in ventilated rooms and complementary numerical simulations suggest an interface that is not sharp but rather smeared out over a finite thickness. For a given plume buoyancy flux, as the cross-sectional area of the enclosure increases the volume of fluid that must be entrained by the plume to maintain a sharp interface also increases. Therefore the balance between the diffusive thickening of the interface and plume-driven thinning favours a thicker interface. Conversely, the interface thickness decreases with increasing source buoyancy flux, although the dependence is relatively weak. Our analysis presents two models for predicting the interface thickness as a function of the enclosure height, base area, composite vent area, plume buoyancy flux and buoyancy diffusivity. Model results are compared with interface thickness measurements based on previously reported data. Positive qualitative and quantitative agreement is observed.



  • Architecture, Building and Civil Engineering


KAYE, N.B. ... et al, 2010. The role of diffusion on the interface thickness in a ventilated filling box. Journal of Fluid Mechanics, 652, pp. 195-205


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This is an article from the Journal of Fluid Mechanics, [© Cambridge University Press] and the definitive version is available at: http://journals.cambridge.org/action/displayJournal?jid=FLM




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