A mathematical determination of the pore size distribution and fractal dimension of a porous sample using spontaneous imbibition dynamics theory

[1] Bennion B(2008)Drainage and imbibition relative permeability relationships for supercritical CO2/brine and H2S/brine systems in intergranular sandstone, carbonate, shale, and anhydrite rocks SPE Reservoir Eval Eng 11 487-496

[2] Bachu S(2001)Pore-throat size distributions in Permo-Triassic sandstones from the United Kingdom and some implications for contaminant hydrogeology Hydrogeol J 9 219-230

[3] Bloomfield J(2000)Effect of pore size distribution on drying shrinking of alkali-activated slag concrete Cem Concr Res 30 1401-1406

[4] Gooddy D(2001)The surface fractal dimension of the soil–pore interface as measured by image analysis Geoderma 103 203-229

[5] Bright M(1990)Pore-size distributions from nuclear magnetic resonance spin-lattice relaxation measurements of fluid-saturated porous solids. I. Theory and simulation J Appl Phys 67 3163-3170

[6] Williams P(2006)Capillary pressure and hydrophilic porosity in gas diffusion layers for polymer electrolyte fuel cells J Power Sources 156 375-387

[7] Collins FJ(1994)Structure and seismic response of extended continental crust: stochastic analysis of the Strona–Ceneri and Ivrea zones, Italy Geology 22 79-82

[8] Dathe A(1990)The effect of pore-structure on hysteresis in relative permeability and capillary pressure: pore-level modeling. Transport in porous media Transport in porous media 5 103-151

[9] Eins S(2003)Porosity, pore size distribution and in situ strength of concrete Cement Conc Res 33 155-164

[10] Niemeyer J(2010)Analytical derivation of Brooks–Corey type capillary pressure models using fractal geometry and evaluation of rock heterogeneity J Petrol Sci Eng 73 20-26

[1] Bennion B(2008)Drainage and imbibition relative permeability relationships for supercritical CO2/brine and H2S/brine systems in intergranular sandstone, carbonate, shale, and anhydrite rocks SPE Reservoir Eval Eng 11 487-496

[2] Bachu S(2001)Pore-throat size distributions in Permo-Triassic sandstones from the United Kingdom and some implications for contaminant hydrogeology Hydrogeol J 9 219-230

[3] Bloomfield J(2000)Effect of pore size distribution on drying shrinking of alkali-activated slag concrete Cem Concr Res 30 1401-1406

[4] Gooddy D(2001)The surface fractal dimension of the soil–pore interface as measured by image analysis Geoderma 103 203-229

[5] Bright M(1990)Pore-size distributions from nuclear magnetic resonance spin-lattice relaxation measurements of fluid-saturated porous solids. I. Theory and simulation J Appl Phys 67 3163-3170

[6] Williams P(2006)Capillary pressure and hydrophilic porosity in gas diffusion layers for polymer electrolyte fuel cells J Power Sources 156 375-387

[7] Collins FJ(1994)Structure and seismic response of extended continental crust: stochastic analysis of the Strona–Ceneri and Ivrea zones, Italy Geology 22 79-82

[8] Dathe A(1990)The effect of pore-structure on hysteresis in relative permeability and capillary pressure: pore-level modeling. Transport in porous media Transport in porous media 5 103-151

[9] Eins S(2003)Porosity, pore size distribution and in situ strength of concrete Cement Conc Res 33 155-164

[10] Niemeyer J(2010)Analytical derivation of Brooks–Corey type capillary pressure models using fractal geometry and evaluation of rock heterogeneity J Petrol Sci Eng 73 20-26