Page 126 - gas transport in porous media
P. 126
viscous stress tensor for species A,N/m
τ A
τ Chapter 6: Conservation Equations 2 119
tortuosity
µ viscosity, Ns/m 2
viscosity of the γ -phase, Ns/m 2
µ γ
REFERENCES
Altevogt, A.S., Rolston, D.E. and Whitaker, S. 2003a, New equations for binary gas transport in porous
media I: Equation development, Water Resources Research 26, 695–715.
Altevogt, A.S., Rolston, D.E. and Whitaker, S. 2003b, New equations for binary gas transport in porous
media II: Experimental validation, Water Resources Research 26, 717–723.
Arce, P., Quintard, M. and Whitaker, S. 2005, The art and science of upscaling, in Chemical Engineering:
Trends and Developments, edited by M.A. Galan and E.M de Valle, John Wiley & Sons, Ltd, London.
Bird, R.B., Stewart, W.E. and Lightfoot, E.N. 2002, Transport Phenomena, Second Edition, John Wiley
and Sons, Inc., New York.
Brinkman, H.C. 1947, A calculation of the viscous force exerted by a flowing fluid on a dense swarm of
particles, App. Sci. Res. A1, 27–34.
Chang, H.C. 1982, Multiscale analysis of effective transport in periodic heterogeneous media, Chem.
Engng. Commun. 15, 83–91.
Chang, H.C. 1983, Effective diffusion and conduction in two-phase media: A unified approach, AIChE
Journal 29, 846–853.
Cerro, R.L., Higgins, B.G. and Whitaker, S. 2004, Material Balances for Chemical Engineers available at
http://www.higgins.ucdavis.edu/matbalance.html.
Chapman, S. and Cowling, T.G. 1970, The Mathematical Theory of Nonuniform Gases, third edition,
Cambridge University Press.
Cushman, J.H. 1990, Dynamics of Fluids in Hierarchical Porous Media, Academic Press, London.
Cushman, J.H. 1997, The Physics of Fluids in Hierarchical Porous Media: Angstroms to Miles, Kluwer
Academic Publishers, Dordrecht.
Darcy, H. 1856, Les Fontaines Publiques de la Ville de Dijon, Dalmont, Paris.
Edwards, D.A., Brenner, H. and Wasan, D.T. 1991, Interfacial Transport Processes and Rheology,
Butterworth-Heinemann, Boston.
Eidsath, A.B., Carbonell, R.G., Whitaker, S. and Herrmann, L.R. 1983, Dispersion in pulsed systems III:
Comparison between theory and experiments for packed beds, Chem. Engng. Sci. 38, 1803–1816.
Forchheimer, P. 1901, Wasserbewegung durch Boden, Z. Ver. Deutsch. Ing. 45, 1782–1788.
Golay, M.J.E. 1958, in Gas Chromatography, edited by D.H. Desty, Butterworths, London.
Graham, T. 1833, On the law of the diffusion of gases, Phil. Mag. 2, 175–190, 269–276, 351–358.
Gray, W.G. 1975, A derivation of the equations for multiphase transport, Chem. Engng. Sci. 30, 229–233.
Jackson, R. 1977, Transport in Porous Catalysts, Elsevier Publishing Co., New York.
Kerkhof, P.J.A.M. 1996, A modified Maxwell-Stefan Model for transport through inert membranes: The
binary friction model, The Chemical Engineering Journal 64, 319–343.
Kerkhof, P.J.A.M. 1997, New light on some old problems: Revisiting the Stefan tube, Graham’s law, and
the Bosanquet equation, Industrial & Engineering Chemistry Research 36, 915–922.
Kramers, H.A. and Kistemaker, J. 1943, On the slip of a diffusing gas mixture along a wall, Physica 10,
699–713.
Mason, E.A. and Malinauskas,A.P. 1983, Gas Transport in Porous Media: The Dusty-Gas Model, Elsevier,
New York.
Ochoa-Tapia, J.A., Stroeve, P. and Whitaker, S. 1994, Diffusive transport in two-phase media: Spatially
periodic models and Maxwell’s theory for isotropic and anisotropic systems, Chemical Engineering
Science 49, 709–726.
Quintard, M. 1993, Diffusion in isotropic and anisotropic porous systems: Three-dimensional calculations,
Transport in Porous Media 11, 187–199.
