Altevogt A.S.; Rolston D.E.; Whitaker S. (2003): New equations for binary gas transport in porous media, Part2: experimental validation. Advances in Water Resources, Vol. 26, pp. 717-723.
Amir H.; Le Palec G.; Daguenet M. (1987): Séchage superficiel d'un matériau poreux humide par convection forcée d'air chaud : couplage entre les équations de transferts dans le matériau et celles de la couche limite. International Journal of Heat and Mass Transfer, vol. 46, pp. 1149-1158.
Aregba A.W.; Nadeau J.P. (2007): Comparison of two non-equilibrium models for static grain deep-bed drying by numerical simulations. Journal of Food Engineering, vol. 78, pp. 1174-1187.
Aregba A.W.; Sebastian P.; Nadeau J.P. (2006): Stationary deep-bed drying: A comparison study between logarithmic model and a non-equilibrium model. Journal of Food Engineering, vol. 77, pp. 27-40.
Arnaud G.; Fohr J.P. (1988): Slow drying simulation in thick layers of granular products. International Journal of Heat and Mass Transfer, vol. 31, pp. 2517-2526.
Bennamoun L.; Belhamri A. (2006a): Numerical simulation of drying under variable external conditions: Application to solar drying of seedless grapes. Journal of Food Engineering, vol. 76, pp. 179-187.
Bennamoun L.; Belhamri A. (2006b): Study of convective heat and mass transfer in a porous media: application to packed bed drying. In: A.S. Mujumdar (Ed.), Drying 2006, Szent Istvàn University Publisher, Gödöllö, Hungary, pp. 532-538.
Ben Nasrallah S.; Amara T.; Du Peuty M.A. (1997): Convection neturelle instationnaire dans un cylindre rempli de grains ouverts à ses extrémités et dont la paroi est chauffée par un flux de chaleur constant: validité de l'hypothèse de l'équilibre thermique local. International Journal of Heat and Mass Transfer, vol. 40, pp. 1155-1168.
Berna A.; Rosselo C.; Cañellas J. Mulet A. (1991): Drying kinetics of a Majorcan seedless grape variety. In: A.S. Mujumdar (Ed.) Drying 91, Elsevier, Amsterdam, pp. 455-462.
Bihercz G.; Beke J. (2006): Semi-Empirical model of convective drying with wide range layer depth validity. Drying Technology, vol. 24, pp. 1165-1172.
Boukadida N.; Ben Nasrallah S. (2002): Effect of the variability of heat and mass transfer coefficient on convective and convective-radiative drying of porous media. Drying Technology, vol. 20, pp. 67-91.
Chauhan P.M.; Choudhury C.; Garg H.P. (1996): Comparative performance of coriander dryer coupled to solar air and solar air-heater-cum-rock bed storage. Applied Thermal Engineering, vol. 16, pp. 475-486.
Duval F.; Fichot F.; Quintard M. (2004): A local thermal non-equilibriummodel for two-phase flows with phase-change in porous media. International Journal of Heat and Mass Transfer, vol. 47, pp. 613-639.
Figus C.; Le Bray Y.; Bories S.; Prat M. (1999): Heat and mass transfer with phase change in a porous structure partially heated. Continuum model and pore network simulations. International Journal of Heat and Mass Transfer, vol. 42, pp. 2557-2569.
Haddad O.M.; Al-Nimr M.A.; Al Khatteb A.N. (2004): Validation of the local equilibrium assumption in natural convection from vertical plate embedded in porous medium: non-Darcian model. International Journal of Heat and Mass Transfer, vol. 47, pp. 2037-2042.
Hsu C.T. (2000): Heat conduction in porous media. In: K. Vafai (Ed.) Handbook of porous media, Marcel Dekker, New York, pp. 171-200.
Inazu T.; Iwasaki K.; Furuta T. (2002): Drying air conditions of fresh Japanese noodle (Udon). In: Mujumdar A.S. (Ed.), Drying 2002, pp. 1556-1562.
Jain D.; Jain R.K. (2004): Performance evaluation of an inclined multi-pass solar air heater with in-built storage on deep-bed drying application. Journal of Food Engineering, vol. 65, pp. 497-509.
Johnner P.S.I.; Sumardiono S. (2003): Modelling and simulation of momentum, heat and mass transfer in a deep-bed grain dryer. Drying Technology, vol. 21, pp. 217-229.
Kimura S.; Kiwata T.; Okajima A.; Pop I. (1997): Conjugate natural convection in porous media. Advances in Water Resources, vol. 20, pp. 111-126.
Kiranoudis C.T.; Maroulis Z.B.; Marinos-Kouris D. (1992): Drying kinetics of onion and green paper. Drying Technology, vol. 10, pp. 995-1011.
Liu W.; Jiang P.; Shen S. (2005): Numerical and experimental investigation of convective drying in unsaturated porousmedia with bound water. Heat and Mass Transfer, vol. 41, pp. 1103-1111.
Masmoudi W.; Prat M. (1991): Heat and mass transfer between a porous medium and a parallel external flow application to drying of capillary porous material. International Journal of Heat and Mass Transfer, vol. 34, pp. 1975-1989.
Mhimid A.; Ben Nasrallah S.; Fohr J.P. (2000): Heat and mass transfer during drying of granular products- simulation with convective and conductive boundary conditions. International Journal of Heat and Mass Transfer, vol.43, pp. 2779-2791.
Nield D.A.; Kuznetsov A.V.; Xiong M. (2002): Effect of local thermal non-equilibrium on thermally developing forced convection in a porous medium. International Journal of Heat and Mass Transfer, vol. 45, pp. 4949-4955.
Plumb O.A.; Prat M. (1992): Microscopic models for the study of drying of capillary porous media. In: A.S.Mujumdar (Ed.) Drying 92, Elsevier, Amsterdam, pp. 397-406.
Prat M. (2002): Recent advances in pore-scale models for drying of porousmedia. Chemical Engineering Journal, vol. 86, pp. 153-164.
Prat M. (1995): Isothermal drying of non-hygroscopic capillary-porous materials as an invasion percolation process. International Journal of Multiphase Flow, vol. 21, pp. 786-791.
Quintard M.; Whitaker S. (2000): Theoretical analysis of transport in porousmedia. In: K. Vafai (Ed.) Handbook of porous media, Marcel Dekker, New York, pp. 1-52.
Quintard M.; KavianyM.;Whitaker S. (1997): Two medium treatment of heat transfer in porous media: numerical results for effective properties. Advances in Water Resources, vol. 20, pp. 77-94.
Quintard M.; Whitaker S. (1995): Local thermal equilibrium for transient heat conduction: theory and comparison with numerical experiments. International Journal of Heat and Mass Transfer, vol. 38, pp. 2779-2796.
Ratti C.; Mujumdar A.S. (1995): simulation of packed bed drying of foodstuffs with airflow reversal. Journal of Food Engineering, vol. 26, pp. 259-271.
Ratti C.; Crapiste G.H. (1992): A generalized drying curve fir shrinking food materials. In: Mujumdar A.S. (Ed.), Drying 92, Elsevier, Amsterdam, pp. 864-873.
Srivastava V.K.; John J. (2002): Deep bed grain dryingmodelling. Energy Conversion& Management, vol. 43, pp. 1689-1708.
Thevenin J.; Sadaoui D. (1995): About enhancement of heat transfer over a circular cylinder embedded in a porous medium. International communications in Heat and Mass Transfer, vol. 22, pp. 295-304.
Thevenin J. (1995): Transient forced convection heat transfer from a circular cylinder embedded in a porous medium. International communications in Heat and Mass Transfer, 1995, vol. 22, pp. 507-516.
Wang Z.H.; Chen G. (1999): Heat and mass transfer in fixed-bed drying. Chemical Engineering Science, vol.54, pp. 4233-4243.
Whitaker S. (1980): Heat and mass transfer in granular porous media. In: Mujumdar A. S. (Ed.) Advances in Drying I, pp. 23-61.