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Pore level visualization of foam flow in a silicon micromodel. SUPRI TR 100

Technical Report ·
DOI:https://doi.org/10.2172/176801· OSTI ID:176801
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This paper is concerned with the behavior of foam in porous media at the pore level. Identical, heterogeneous silicon micromodels, two dimensionally etched to replicate flow in Berea Sandstone, were used. The models, already saturated with varying concentrations of surfactant and, at times, oil were invaded with air. Visual observations were made of these air displacement events in an effort to determine foam flow characteristics with varying surfactant concentrations, and differing surfactants in the presence of oil. These displacement events were recorded on video tape. These tapes are available at the Stanford University Petroleum Research Institute, Stanford, California. The observed air flow characteristics can be broadly classified into two: continuous and discontinuous. Continuous air flow was observed in two phase runs when the micromodel contained no aqueous surfactant solution. Air followed a tortuous path to the outlet, splitting and reconnecting around grains, isolating water located in dead-end or circumvented pores, all without breaking and forming bubbles. No foam was created. Discontinuous air flow occurred in runs containing surfactant - with smaller bubble sizes appearing with higher surfactant concentrations. Air moved through the medium by way of modified bubble train flow where bubbles travel through pore throats and tend to reside more statically in larger pore bodies until enough force is applied to move them along. The lamellae were stable, and breaking and reforming events by liquid drainage and corner flow were observed in higher surfactant concentrations. However, the classic snap-off process, as described by Roof (1973) was not seen at all.

Research Organization:
Stanford Univ., CA (United States)
Sponsoring Organization:
USDOE, Washington, DC (United States)
DOE Contract Number:
FG22-93BC14899
OSTI ID:
176801
Report Number(s):
DOE/BC/14899--32; ON: DE96001205
Country of Publication:
United States
Language:
English

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Related Subjects

02 PETROLEUM
AIR FLOW
BUBBLES
DRAINAGE
FLUID FLOW
FOAMS
LAMELLAE
OIL WELLS
OPTIMIZATION
PERMEABILITY
PETROLEUM
POROSITY
PRESSURE MEASUREMENT
RESERVOIR ROCK
SANDSTONES
STEAM INJECTION
SURFACTANTS
SWEEP EFFICIENCY
WELL STIMULATION