Visualization of Foam/oil Interactions in a New, High Resolution Sandstone Replica Micromodel
Title | Visualization of Foam/oil Interactions in a New, High Resolution Sandstone Replica Micromodel PDF eBook |
Author | John Wirt Hornbrook |
Publisher | |
Pages | 74 |
Release | 1991 |
Genre | |
ISBN |
Visualization of Foam/oil in a New, High Resolution, Sandstone Replica Micromodel
Title | Visualization of Foam/oil in a New, High Resolution, Sandstone Replica Micromodel PDF eBook |
Author | John Wirt Hornbrook |
Publisher | |
Pages | 30 |
Release | 1992 |
Genre | Foamed materials |
ISBN |
Visualization of Foam/oil in a New, High Resolution, Sandstone Replica Micromodel
Title | Visualization of Foam/oil in a New, High Resolution, Sandstone Replica Micromodel PDF eBook |
Author | J. W. Hornbrook |
Publisher | |
Pages | 30 |
Release | 1992 |
Genre | Foamed materials |
ISBN |
Oil-foam Interactions in a Micromodel
Title | Oil-foam Interactions in a Micromodel PDF eBook |
Author | |
Publisher | |
Pages | 119 |
Release | 1997 |
Genre | |
ISBN |
This report presents results of a pore-level visualization study of foam stability in the presence of oil. Many laboratory investigations have been carried out in the absence of oil, but comparatively few have been carried out in the presence of oil. For a field application, where the residual oil saturation may vary from as low as 0 to as high as 40% depending on the recovery method applied, any effect of the oil on foam stability becomes a crucial matter. Sandstone patterns were used in this study. The micromodels used are two-dimensional replicas of the flow path of Berea sandstone etched on to a silicon wafer to a prescribed depth, adapting fabrication techniques from the computer chip industry. After flooding the models up to connate water and residual oil saturations, surfactant flood followed by gas injection to generate foam was done. Visual observations were made using a high resolution microscope and pictures were recorded on videotape before being processed as they appear in this report.
Visualization of Foam
Title | Visualization of Foam PDF eBook |
Author | |
Publisher | |
Pages | 30 |
Release | 1992 |
Genre | |
ISBN |
A new micromodel construction procedure has been developed as a tool to better understand and model pore level events in porous media. The construction procedure allows for the almost exact two-dimensional replication of any porous medium of interest. For the case presented here a berea sandstone was chosen. Starting with a thin section of the porous medium of interest, a two-dimensional replica of the flow path is etched into a silicon wafer to a prescribed depth. Bonding the etched pattern to a flat glass plate isolates the flow path and allows the pore level flow events to be studied. The high resolution micromodels constructed with the new procedure were used to study the effects of oil on the displacement characteristics of foam in a porous medium of intermediate wettability. A crude oil was injected into the micromodel, partially filling it. The oil was then produced under two different displacement schemes. First, a slug of surfactant was used. Second, foam generated in situ, far from the oil bank, was used to displace the oil. Qualitative observations indicate significant differences at the interface between the oil and the displacing phase. When slug surfactant injection is used, the oil appears to wet the surface. The oil displacement process is efficient due to a large fractional production of oil from the large pores before the surfactant breaks through. When in-situ foam is the displacing phase, the foam is observed to break near the oil interface. The liquid phase in the foam becomes the wetting phase. It is observed to reside in the small pores and to coat most of the grain surfaces. Displacement of oil under this injection scheme is inefficient due to transfer of the surfactant along grain edges and subsequent early breakthrough of the surfactant.
Energy Research Abstracts
Title | Energy Research Abstracts PDF eBook |
Author | |
Publisher | |
Pages | 754 |
Release | 1993 |
Genre | Power resources |
ISBN |
Oil-foam Interactions in a Micromodel
Title | Oil-foam Interactions in a Micromodel PDF eBook |
Author | Neeraj S. Sagar |
Publisher | |
Pages | 212 |
Release | 1997 |
Genre | Foam |
ISBN |