Milind V. Karkare scite author profile

Milind V. Karkare

5Publications

174Citation Statements Received

30Citation Statements Given

How they've been cited

193

159

How they cite others

Affiliations

Vanderbilt University

Publications

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Determination of the Air−Water Interfacial Area in Wet “Unsaturated” Porous Media

Karkare

Fort

1996

Langmuir

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A method is proposed for determining the area of the air−water interface in wet but unsaturated porous media. The method depends on determining the critical concentration of surfactant necessary to achieve water movement within the system. Effective surfactants are insoluble in water, are spread as monolayers at the air−water interface, and form solid monolayers which have little or no effect on the surface tension of water until surface concentration of surfactant molecules reaches a known critical value. At this critical concentration, capillary pressure gradients are established within the system, and water moves. Studies of the effects of different water concentrations on air−water interfacial areas show the correct trends and trend toward the correct limits. Advantages and limitations of the technique are discussed. The air−water interfacial area in wet unsaturated porous media has not previously been experimentally accessible.

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Water movement in "unsaturated" porous media due to pore size and surface tension induced capillary pressure gradients

Karkare¹,

Fort²

1993

Langmuir

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Criteria for effectiveness of surfactants as water-moving agents in "unsaturated" wet sand

Karkare¹,

La²,

Fort³

1993

Langmuir

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Flow in "Unsaturated" Porous Media Due to Water-Insoluble Surfactants: Role of Momentum Transfer from a Spreading Monolayer

Karkare¹,

Fort²

1994

Langmuir

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Effect of Temperature on Surfactant-Driven Water Movement in Wet “Unsaturated” Sand

Karkare

Fort

2002

Langmuir

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The effect of temperature on the surfactant-driven movement of water in wet “unsaturated” sand was investigated and correlated with the equilibrium spreading pressure of the surfactant and the character of the surfactant monolayer at πe. The previously determined criteria for surfactant effectiveness were confirmed. An approximately linear relationship between πe and the amount of water moved by effective surfactants was found. Temperature changes affect water movement by influencing the surfactant πe and the monolayer state at πe.

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Milind V. Karkare

Determination of the Air−Water Interfacial Area in Wet “Unsaturated” Porous Media

Water movement in "unsaturated" porous media due to pore size and surface tension induced capillary pressure gradients

Criteria for effectiveness of surfactants as water-moving agents in "unsaturated" wet sand

Flow in "Unsaturated" Porous Media Due to Water-Insoluble Surfactants: Role of Momentum Transfer from a Spreading Monolayer

Effect of Temperature on Surfactant-Driven Water Movement in Wet “Unsaturated” Sand

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