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Determination of oil saturation in reservoir rock using paramagnetic nanoparticles and magnetic field

a technology of paramagnetic nanoparticles and magnetic field, applied in the field of oil recovery, can solve the problems of difficult independent estimation, difficult to reliably determine the oil saturation of tracer material balance, and shallow probing depth, and achieve the effect of promoting high salinity toleran

Inactive Publication Date: 2016-01-07
BOARD OF RGT THE UNIV OF TEXAS SYST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This method provides a more accurate and invasive determination of oil saturation with increased probing depth, enabling better understanding of oil displacement mechanisms and identification of bypassed oils for enhanced oil recovery.

Problems solved by technology

The difficulty with the NMR logging is that its probing depth is very shallow, i.e., in centimeters.
Moreover, interpretation requires knowledge of rock surface properties (wettability, relaxivity) that can be difficult to estimate independently.
With the “echo” injection / production of partitioning tracers, a reliable determination of oil saturation from the tracer material balance is difficult, because it is difficult to have the detailed knowledge of the porosity-permeability distribution in the study zone.

Method used

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  • Determination of oil saturation in reservoir rock using paramagnetic nanoparticles and magnetic field
  • Determination of oil saturation in reservoir rock using paramagnetic nanoparticles and magnetic field
  • Determination of oil saturation in reservoir rock using paramagnetic nanoparticles and magnetic field

Examples

Experimental program
Comparison scheme
Effect test

example i

Poly(Acrylic Acid)114-b-Poly(Butyl Acrylate)B Block Copolymer Coatings on Iron Oxide Nanoparticles

[0149]Iron oxide nanoparticles were synthesized from iron chlorides in the presence of a PAA-b-PBA polymer. This block copolymer was properly balanced to give a high absorption of nanoparticles at the oil / water interface. The inventors used three different ratios of copolymers with a polymer concentration of 2 wt % for the systematic study. Higher hydrophobic ratio showed a higher interfacial tension. The hydrodynamic diameter of the particles was controllable as a function of the reaction concentrations. The results presented herein were obtained with nanoclusters with a diameter on the order of 100 nm. The aqueous dispersions were stable up to 3 wt % salt at pH 8. Therefore, upon intense probe sonication, micron sized oil / water (oil / water) emulsions were formed and with significant stability. Emulsions of water and dodecane with drop sizes down to 5 μm are stabilized with 100 nm inter...

example ii

Poly(Acrylic Acid)m-r-Poly(Butyl Acrylate)n Coatings on Iron Oxide Nanoparticles

[0150]The inventors synthesized stable dispersions of small, about 100 nm superparamagnetic iron oxide nanoclusters with high magnetization, and controllable sizes, employing inexpensive random copolymers. In order to achieve these requirements, the inventors introduced random copolymers of Poly(acrylic acid)m-r-Poly(butyl acrylate)n as coating materials on iron oxide nanoparticles. This simple synthesis to apply various ratios of hydrophilic and hydrophobic monomers to design these copolymers allows independent tuning of the molecular weight, attachment density of hydrophobic block, and hydrophobicity of the coatings. A systematic study was performed to relate interfacial activity at the oil-water interface to the copolymer structure. The Fe3O4 particles were produced by co-precipitation of iron chloride salts in aqueous alkaline media with ˜10 nm individual size. The clustering was kinetically control...

example iii

Poly(4-Styrenesulfonic Acid-Co-Maleic Acid) Coated Nanoparticles for High Salt Tolerance

[0152]The present inventors also studied the properties of the Poly(4-styrenesulfonic acid-co-maleic acid) coated iron oxide nanoclusters for exceptional salt tolerance (up to 8 wt % salt), higher than that achievable for acrylic-based polymers. The paramagnetic nanoparticles are coated with random copolymers (Saleh, Phenrat et al. 2005) of maleic acid and styrene sulfonic acid, which are suitable for achieving interfacial activities between oil and water. Generally, a random copolymer is usually inexpensive and relatively simple to synthesize. Overall, the method to synthesize the Poly(4-m styrenesulfonic acid-co-maleic acid) coated iron oxide nanoclusters has advantages over other procedures in that it is a quick, inexpensive, and a one-step process which is highly reproducible.

[0153]Aqueous dispersions of 0.2 wt % superparamagnetic iron oxide nanoclusters were stabilized with Poly(4-styrenesul...

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Abstract

Methods for detection of the presence and distribution of oil in subsurface formation are described herein. The present invention involves injection of an aqueous dispersion of the nanoparticles into the potentially oil containing subsurface formation, followed by a remote detection of the oscillation responses of the nanoparticles in the oil / water interfaces in the reservoir rock by applying magnetic field.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]This patent application is a divisional patent application of U.S. Ser. No. 13 / 508,611 filed on Aug. 6, 2012, which is a National Stage of International Application No. PCT / US2010 / 057080, filed Nov. 17, 2010, and claims the benefit of U.S. Provisional Application No. 61 / 262,037, filed Nov. 17, 2009. The contents of each of which are hereby incorporated by reference in its entirety.TECHNICAL FIELD[0002]The present invention relates in general to the field of oil recovery, and more particularly, to using paramagnetic nanoparticles for detecting the presence and determining the saturation of oil in subsurface formations.BACKGROUND INFORMATION[0003]Without limiting the scope of the invention, its background is described in connection with imaging techniques used in oil recovery.[0004]Accurate, non-invasive determination of oil saturation distribution in laboratory cores, near-wellbore zones, and deep in the reservoir, will greatly improve und...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C09K8/588C09K8/80E21B47/10E21B49/00
CPCC09K8/588C09K2208/10C09K8/805E21B49/008G01V3/082E21B47/11Y02A90/30E21B49/00
Inventor HUH, CHUNBRYANT, STEVEN L.MILNER, THOMAS E.JOHNSTON, KEITH P.
Owner BOARD OF RGT THE UNIV OF TEXAS SYST
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