Book ChapterDOI
Enhanced Oil Recovery
Ismael Herrera,George F. Pinder +1 more
- pp 149-164
Reads0
Chats0
TLDR
Enhanced oil recovery (EOR) as mentioned in this paper can unlock a percentage of 30-45% of trapped oil by injecting substances like gases, special liquid (polymers) and stream in the form of injection through injecting wells for oil recovery.Abstract:
Oil exploration and production actively began 100 years ago, from the present day. What we see now, known as primary production by natural flowing of oil by pumped wells. This covers 15% of oil recovery from reservoir. Later 25% of oil is recovered by water flooding is activated which is termed as secondary production. There is still significant oil left in the reservoir, if there is no proper employment of commercial valuable techniques for the production, the oilwell would simply be abandoned. But as the demand for oil kept raising new techniques emerged, eventually from those EOR was a successful in artificial up lifting of oil from the reservoir by providing enough pressure to the trapped oil to flow out of well. It is a tertiary production. EOR is different because it works from microscopic levels as well as by injecting the substances like gases, special liquid (polymers) and stream in the form of injection through injecting wells for oil recovery, which is termed as Enhanced Oil Recovery (EOR). The flooding in EOR, categorized as chemical flooding (by chemicals), stream or thermal injection (by stream) and miscible gas drive (CO2, N2 and LPG). These flooding will alter the physical and chemical properties of reservoirs for the flow of oil out of the well. EOR can unlock a percentage of 30-45% of trapped oil. After naming as successful technique in onshore for tertiary production, research is still going to implement EOR in offshore, to improve tertiary production and exploit hidden billion barrels of oil.read more
Citations
More filters
Journal ArticleDOI
Real-time 3D imaging of Haines jumps in porous media flow
Steffen Berg,Holger Ott,Stephan A Klapp,Alexander G. Schwing,R. Neiteler,Niels Brussee,A. Makurat,Leon Leu,Leon Leu,Frieder Enzmann,Jens-Oliver Schwarz,Michael Kersten,S. Irvine,S. Irvine,Marco Stampanoni,Marco Stampanoni +15 more
TL;DR: Real-time imaging provided a more detailed fundamental understanding of the elementary processes in porous media, such as hysteresis, snap-off, and nonwetting phase entrapment, and it opens the way for a rigorous process for upscaling based on thermodynamic models.
Journal ArticleDOI
Application of Nanoparticles in Enhanced Oil Recovery: A Critical Review of Recent Progress
TL;DR: In this paper, the authors provide an overview of the latest studies about the use of nanoparticles to enhance oil recovery and paves the way for researchers who are interested in the integration of these progresses.
Journal ArticleDOI
Polymeric surfactants for enhanced oil recovery: A review
TL;DR: A review of the literature shows that the use of polymeric surfactants as displacing fluid has the potential to improve the performances of chemical enhanced oil recovery in some cases, but the synthesis are often challenging and costly and the available data about the real performances of such systems in oil recovery are still sparse.
Journal ArticleDOI
Immiscible Foam for Enhancing Oil Recovery: Bulk and Porous Media Experiments
Alexey Andrianov,Rouhollah Farajzadeh,Mahmood Mahmoodi Nick,Mohand Talanana,Pacelli L.J. Zitha +4 more
TL;DR: In this paper, a laboratory study of foams intended to improve immiscible gas flooding in oil production is presented, which is relevant for both continuous and water alternating gas injection.
Journal ArticleDOI
Literature review of low salinity waterflooding from a length and time scale perspective
TL;DR: In this article, a review of low salinity waterflooding at the sub-pore scale is presented, where the main uncertainty lies in how results from subpore-scale experiments connect to core-scale results, which happens on the pore-network scale.
References
More filters
Journal ArticleDOI
Formulations and Numerical Methods of the Black Oil Model in Porous Media
TL;DR: The black oil model for describing the hydrocarbon equilibrium in porous media is considered and various formulations of the governing equations that describe this model, including phase, weighted fluid, global, and pseudoglobal pressure-saturation formulations with the total velocity and flux, are constructed.
Patent
Enhanced oil recovery
TL;DR: In this article, an effective surfactant slug which may be used will comprise a mixture of: (1) from about 1 to about 10% of a sulfonate, which has been obtained by the alkylation of an aromatic hydrocarbon with an olefinic hydrocarbon in the presence of a hydrogen fluoride catalyst; (2) a lower alkyl alcohol which possesses from about 3 to about 6 carbon atoms; and (3) a nonionic cosurfactant comprising an ethoxylated n-alcohol which possesses between about 12 to about 15