1991
DOI: 10.1029/90wr02408
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Effect of interfacial forces on two‐phase capillary pressure—saturation relationships

Abstract: Quantitative descriptions of two‐phase flow in the subsurface require knowledge of the capillary pressure‐saturation relationships. The effect of interfacial forces on the drainage capillary pressure‐saturation relationship for organic liquid‐water systems is usually expressed by the ratio of the liquid‐liquid interfacial tensions as given by Leverett's (1941) function. To assess the appropriateness of this approach for primary drainage of organic liquid‐water systems typical of hazardous waste sites and to ev… Show more

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Cited by 129 publications
(75 citation statements)
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“…The finger diameters increased with decreasing surface tension. If the effects of contact angle on capillarity were considered (see Demond and Roberts 1991), the effect of a contact angle greater than zero would result in a decrease in capillary pressure. This decrease in capillarity should result in a decrease in finger diameter, which is opposite to what was observed.…”
Section: Discussionmentioning
confidence: 99%
“…The finger diameters increased with decreasing surface tension. If the effects of contact angle on capillarity were considered (see Demond and Roberts 1991), the effect of a contact angle greater than zero would result in a decrease in capillary pressure. This decrease in capillarity should result in a decrease in finger diameter, which is opposite to what was observed.…”
Section: Discussionmentioning
confidence: 99%
“…Several authors have performed experiments on capillary porous media using various packing materials (Leverett 1941;Dombrowski and Brownell 1954;El-Genk et al 1983;Dullien et al 1989;Demond and Roberts 1991;Bradford and Leij 1995;Kramer 1998;Lago and Araujo 2001;Ishakoglu and Baytas 2005;Dodds and Srivastava 2006). Results from these experiments are not unambiguous and several differing theories prevail.…”
Section: Review Of Capillary Pressure In Packed Bedsmentioning
confidence: 92%
“…a folyadékok sűrűségéből képzett hányadossal, a határfelületi feszültségek ismeretében, a nedvesedési szög és a porozitás, illetve differenciált porozitás figyelembevételével (pl. DEMOND & ROBERTS, 1991;DANE et al, 1992;BRADFORD & LEIJ, 1995;MOSELEY & DHIR, 1996;İSHAKOGLU & BAYTAŞ, 2005). A módosított verziók elméleti alapja azonban azonos, a Leverett-egyenlet hibáit nem küszöbölték ki (MAKÓ & HERNÁDI, 2012).…”
Section: A Talajpórusok Napl-visszatartó Képességeunclassified