U. K. Ali, P. J. Mcgauley, and C. J. Wilson, The Effects of High-Velocity Flow and PVT Changes near the Wellbore on Condensate Well Performance, SPE, vol.38923, pp.823-838, 1997.

J. Bear, Dynamics of Fluids in Porous Media, 1972.

R. B. Bird, W. E. Stewart, and E. N. Lightfoot, , 1960.

S. M. Blom and J. Hagoort, The Combined Effect of Near-Critical Relative Permeability and Non-Darcy Flow on Well Impairment by Condensate Drop-out, SPE, vol.39976, pp.1-12, 1998.

R. H. Brooks and A. T. Corey, Properties of Porous Media Affecting Fluid Flow, J. Irrig. Drainage Division, Proc. Amer. Soc. Civil Eng, vol.92, pp.61-87, 1966.

J. M. Buchlin and A. Stubos, Phase Change Phenomena at Liquid Saturated Self Heated Particulate Beds, in Modeling and Applications of Transport Phenomena in Porous Media, 1987.

G. Chauveteau and C. Thirriot, Régimes d'écoulement en milieu poreux et limite de la loi de Darcy, vol.22, pp.1-8, 1967.

A. T. Corey, The Interelationship between Gas and Oil Relative Permeabilities. Producer's Monthly, vol.19, pp.38-41, 1954.

D. Cornell and D. L. Katz, Flow of Gases through Consolidated Porous Media, Ind. Eng. Chem, vol.45, pp.2145-2153, 1953.

H. Darcy, , 1856.

F. A. Dullien, Porous Media-Fluid Transport and Pore Structure, 1992.

S. Ergun, Fluid Flow through Packed Columns, Chem. Eng. Progr, vol.48, pp.89-94, 1952.

E. V. Evans and R. D. Evans, The Influence of an Immobile or Mobile Saturation upon Non-Darcy Compressible Flow of Real Gases in Propped Fractures, SPE, vol.15066, pp.181-195, 1986.

R. D. Evans, C. S. Hudson, and J. E. Greenlee, The Effect of an Immobile Liquid Saturation on the Non-Darcy Flow Coefficient in Porous Media, SPE Production Engineering, pp.331-338, 1987.

P. Forchheimer, , vol.15, 1914.

M. Fourar, S. Bories, R. Lenormand, and P. Persoff, Two-Phase Flow in Smooth and Rough Fractures: Measurement and Correlation by Porous-Media and Pipe-Flow Models, Water Resources Research, vol.29, pp.3699-3708, 1993.

M. Fourar and R. Lenormand, A Viscous Coupling Model for Relative Permeabilities in Fractures, SPE, vol.49006, pp.253-258, 1998.

J. Geertsma, Estimating the Coefficient of Inertial Resistance Fluid Flow through Porous Media, SPE, vol.4706, pp.445-450, 1974.

M. K. Hubbert, Darcy Law and the Field Equations of the Flow of Underground Fluids, Trans. Amer. Inst. Min. Mandal. Eng, vol.207, pp.222-239, 1956.

S. Kouamé, Étude expérimentale d'écoulements diphasiques en fracture, 1989.

H. S. Lee and I. Catton, Two-Phase Flow in Stratified Porous Media. 6th Information Exchange Meanding on Debris Coolability, 1984.

E. Lindquist, On the Flow of Water through Porous Soil. Premier Congrès des grands barrages, vol.5, pp.81-101, 1933.

R. J. Lipinski, A Particle Bed Dryout Model with Upward and Downward Boiling, Trans. Am. Nucl. Soc, vol.35, pp.350-358, 1980.

R. J. Lipinski, A One-Dimensional Particle Bed Dryout Model, Trans. Am. Nucl. Soc, vol.38, pp.386-387, 1981.

R. J. Lipinski, A Model for Boiling and Dryout in Particle Beds, 1982.

R. W. Lockhart and R. C. Martinelli, Proposed Correlation of Data for Isothermal Two-Phase, Two-Component Flow in Pipes, Chem. Eng. Progr, vol.45, pp.39-48, 1949.

D. Mahoney and K. Doggandt, Multiphase Flow in Fractures, Proc. of the Meanding of the Sociandy of Core Analysts, 1997.

C. M. Marle, Multiphase Flow in Porous Media, 1981.

J. P. Martins, D. Milton-taylor, and H. K. Leung, The Effects of Non-Darcy Flow in Propped Hydraulic Fractures, SPE, vol.20709, pp.899-913, 1990.

L. S. Merrill, Two-Phase Flow in Fractures, 1975.

N. Midoux, M. Favier, and J. C. Charpentier, Flow Pattern, Pressure Loss and Liquid Holdup Data in Gas-Liquid Downflow Packed Beds with Foaming and Nonfoaming Hydrocarbons, J. Chem. Eng. Japan, vol.9, pp.350-356, 1976.

G. Narayanaswamy, M. M. Sharma, and G. A. Pope, Effect of Heterogeneity on the Non-Darcy Flow Coefficient, SPE, vol.39979, pp.215-226, 1998.

J. W. Neasham, The Morphology of Dispersed Clay in Sandstone Reservoirs and its Effects on Sandstone Shaliness, Pore Space and Fluid Flow Properties. 52nd Anual Fall Meanding of the SPE, 1977.

R. Noman and J. S. Archer, The Effect of Pore Structure on Non-Darcy Gas Flow in some Low Permeability Reservoir Rocks, SPE, vol.16400, pp.103-110, 1987.

P. Persoff and K. Pruess, Two-Phase Flow Visualization and Relative Permeability Measurement in Natural RoughWalled Rock Fractures, Water Resources Research, vol.31, pp.1175-1186, 1995.

V. G. Rao, M. S. Ananth, and Y. B. Varam, Hydrodynamics of Two-Phase Co-Current Downflow through Packed Beds, AIChE Journal, vol.29, pp.467-483, 1983.

E. S. Romm, Fluid Flow in Fractured Rocks, 1966.

A. E. Saez and R. G. Carbonnell, Hydrodynamic Parameters for Gas-Liquid Co-Current Flow in Packed Beds, AIChE Journal, vol.31, pp.52-62, 1985.

Y. Sato, T. Hirose, F. Takahashi, and M. Toda, Pressure Loss and Liquid Holdup in Packed Bed Reactor with Cocurrent Gas-Liquid Downflow, J. Chem. Eng. Japan, vol.6, p.147, 1973.

A. E. Scheidegger, The Physics of Flow through Porous Media, 1960.

G. Schneebeli, Expériences sur la limite de validité de la loi de Darcy et l'apparition de la turbulence dans un écoulement de filtration, vol.10, pp.141-149, 1955.

T. Schulenberg and U. Muller, A Refined Model for the Coolability of Core Debris with Flow Entry from the Bottom, p.6, 1984.

, Information Exchange Meanding on Debris Coolability

M. Tiss and R. D. Evans, Measurement and Correlation of Non-Darcy Flow Coefficient in Consolidated Porous Media, J. Pand. Sci. Eng, vol.3, pp.19-33, 1989.

G. Tosun, A Study of Cocurrent Downflow of Nonfoaming Gas-Liquid System in Packed Bed. 1. Flow Regimes: Search for a Generalized Flow Map. 2. Pressure Drop: Search for a Correlation, Ind. Eng. Chem. Process Des. Dev, vol.23, pp.9-35, 1984.

B. D. Turland and K. A. Moore, One-Dimensional Models of Boiling and Dryout. Post Accident Debris Colling, Proc. 5th Post Accident Heat Removal Information Exchange Mtg, 1982.