Mechanisms of Foam Flow in Porous Media: Apparent Viscosity in Smooth Capillaries

Hirasaki, George J.; Lawson, J.B.

doi:10.2118/12129-pa

Cited by 512 publications

(486 citation statements)

References 7 publications

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“…Based on the theoretical studies of Bretherton (1961) and Hirasaki and Lawson (1985), the effective viscosity of the non-Newtonian foam is described as…”

Section: Effective Viscosity Of Foammentioning

confidence: 99%

“…In the absence of flowing foam bubbles (i.e., n f = 0), the gas viscosity is recovered. Friedmann et al (1991) reported an empirical value of 0.29 for the exponent c. The Bretherton-based theoretical value is 1/3 (Bretherton 1961;Hirasaki and Lawson 1985;Falls et al 1989). Falls et al (1989) developed a different theoretical model to account for the pore constriction in homogeneous bead packed in glass tubes.…”

Section: Effective Viscosity Of Foammentioning

confidence: 99%

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Foam Transport in Porous Media - A Review

Zhang¹,

Freedman²,

Zhong³

2009

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Executive SummaryAmendment solutions with or without surfactants have been used to remove contaminants from soil. However, they have drawbacks in that amendment solutions often mobilize the plume, and its movement is controlled by gravity and preferential flow paths. Foam is an emulsion-like, two-phase system in which gas cells are dispersed in a liquid and separated by thin liquid films called lamellae. The potential advantages of using foams in sub-surface remediation include providing better control on the volume of fluids injected, uniformity of contact, and the ability to contain the migration of contaminant-laden liquids. It is expected that foam can serve as a carrier of amendments for vadose zone remediation, e.g., at the Hanford Site. As part of the U.S. Department of Energy's EM-20 program, a numerical simulation capability will be added to the Subsurface Transport Over Multiple Phases (STOMP) flow simulator. The primary purpose of this document is to review the modeling approaches of foam transport in porous media. However, as an aid to understanding the simulation approaches, some experiments under unsaturated conditions and the processes of foam transport are also reviewed.Foam may be formed when the surfactant concentration is above the critical micelle concentration. There are two main types of foams -ball foam (microfoam) and polyhedral foam. The characteristics of bulk foam are described by properties such as foam quality, texture, stability, density, surface tension, disjoining pressure, etc. Foam has been used to flush contaminants such as metals, organics, and nonaqueous phase liquids from unsaturated soil. Ball foam, or colloidal gas aphrons, reportedly have been used for soil flushing in contaminated site remediation and was found to be more efficient than surfactant solutions on the basis of weight of contaminant removed per gram of surfactant. Experiments also indicate that the polyhedral foam can be used to enhance soil remediation.The transport of foam in porous media is complicated in that the number of lamellae present governs flow characteristics such as viscosity, relative permeability, fluid distribution, and interactions between fluids. Hence, foam is a non-Newtonian fluid. During transport, foam destruction and formation occur. The net result of the two processes determines the foam texture (i.e., bubble density). Some of the foam may be trapped during transport. According to the impacts of the aqueous and gas flow rates, foam flow generally has two regimes -weak and strong foam. There is also a minimum pressure gradient to initiate foam flow and a critical capillary for foam to be sustained. Similar to other fluids, the transport of foam is described by Darcy's law with the exception that the foam viscosity is variable.Three major approaches to modeling foam transport in porous media are the empirical, semi-empirical, and mechanistic methods. Mechanistic approaches can be complete in principle but may be difficult for obtaining reliable parameters, whereas empirical and semi-emp...

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“…Based on the theoretical studies of Bretherton (1961) and Hirasaki and Lawson (1985), the effective viscosity of the non-Newtonian foam is described as…”

Section: Effective Viscosity Of Foammentioning

confidence: 99%

Section: Effective Viscosity Of Foammentioning

confidence: 99%

Foam Transport in Porous Media - A Review

Zhang¹,

Freedman²,

Zhong³

2009

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“…The gas relative permeability reduction effect is caused by a large effective trapped gas saturation created by foam. The dragging of flowing lamellae along pore walls leads additional resistance to the flowing of foaming bubbles compared with foam-free gas (Hirasaki and Lawson 1985).…”

Section: Introductionmentioning

confidence: 99%

Mobility control ability and stability investigation of nitrogen foam under high temperature and high salinity condition

Wang

Sun

Shi

et al. 2017

J Petrol Explor Prod Technol

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The mobility disparity between oil and water accounted for the poor water swept efficiency. Previous research has testified that nitrogen foam can increase sweep area and control water and gas mobility. However, the former studies have largely covered the mobility control ability performance in some conventional reservoir rather than that under high temperature and high salinity. This paper presents the results of a laboratory study of nitrogen foam at the experimental condition (113°C and 21.28 9 10 4 mg/L) on its mobility control ability investigation, including different gas-to-liquid ratio, injection rate and core permeability; additionally, a novel method on studying the stability of mobility control ability of foam was utilized. Nitrogen foam injection was conducted in core holder to investigate the shape discrepancy of each resistance factor and residual resistance curve. The results showed that the most moderate gas-to-liquid ratio and injection rate were 2:1 and 1 mL/min, respectively; foam performed more significant mobility control ability with the increase in permeability. After 5 days' aging, nitrogen foam still got enough mobility control ability to block water channeling. The above results demonstrate that, under high temperature and high salinity condition, nitrogen foam still can act as a promising economical method for improving the mobility difference between water and oil by applying appropriate injection parameters.

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“…Each vertical film touches both plates along lines called Plateau borders. When sliding on the plates, they induce a viscous dissipation that becomes important even at relatively small velocities [5,6]. When a foam is pushed in the cell, it is thus submitted to a viscous force depending on its velocity and on the density of Plateau borders, ie on the bubble sizes.…”

Section: Introductionmentioning

confidence: 99%

Experimental evidence of flow destabilization in a two-dimensional bidisperse foam

2006

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Liquid foam flows in a Hele-Shaw cell were investigated. The plug flow obtained for a monodisperse foam is strongly perturbed in the presence of bubbles whose size is larger than the average bubble size by an order of magnitude at least. The large bubbles migrate faster than the mean flow above a velocity threshold which depends on its size. We evidence experimentally this new instability and, in case of a single large bubble, we compare the large bubble velocity with the prediction deduced from scaling arguments. In case of a bidisperse foam, an attractive interaction between large bubbles induces segregation and the large bubbles organize themselves in columns oriented along the flow. These results allow to identify the main ingredients governing 2D polydisperse foam flows.

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Mechanisms of Foam Flow in Porous Media: Apparent Viscosity in Smooth Capillaries

Cited by 512 publications

References 7 publications

Foam Transport in Porous Media - A Review

Foam Transport in Porous Media - A Review

Mobility control ability and stability investigation of nitrogen foam under high temperature and high salinity condition

Experimental evidence of flow destabilization in a two-dimensional bidisperse foam

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