Well treatment fluids and methods utilizing nano-particles
First Claim
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1. A method of treating a subterranean formation comprising:
- providing particles, wherein the particles comprise three size ranges disjointed from one another, wherein a first size range includes nano-particles from about 7 nm to about 50 nm, wherein a second size range includes particles from about 0.05 microns to about 0.5 microns, and wherein a third size range includes particles from about 200 microns to about 800 microns, wherein the nano-particles comprise nano-boron, wherein the nano-particles are particulate and non-colloidal and encapsulated in a degradable coating;
including the particles in a treatment fluid;
introducing into the subterranean formation the treatment fluid at or above a pressure sufficient to create or enhance one or more fractures in the subterranean formation, wherein the nano-particles are included as proppant in the treatment fluid; and
depositing at least a portion of the nano-particles in the one or more fractures, wherein the fractures are prevented from fully closing upon the release of pressure and wherein the fractures form conductive channels through which fluids may flow.
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Abstract
Disclosed embodiments relate to well treatment fluids and methods that utilize nano-particles. Exemplary nano-particles are selected from the group consisting of particulate nano-silica, nano-alumina, nano-zinc oxide, nano-boron, nano-iron oxide, and combinations thereof. Embodiments also relate to methods of cementing that include the use of nano-particles. An exemplary method of cementing comprises introducing a cement composition into a subterranean formation, wherein the cement composition comprises cement, water and a particulate nano-silica. Embodiments also relate to use of nano-particles in drilling fluids, completion fluids, simulation fluids, and well clean-up fluids.
475 Citations
14 Claims
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1. A method of treating a subterranean formation comprising:
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providing particles, wherein the particles comprise three size ranges disjointed from one another, wherein a first size range includes nano-particles from about 7 nm to about 50 nm, wherein a second size range includes particles from about 0.05 microns to about 0.5 microns, and wherein a third size range includes particles from about 200 microns to about 800 microns, wherein the nano-particles comprise nano-boron, wherein the nano-particles are particulate and non-colloidal and encapsulated in a degradable coating; including the particles in a treatment fluid; introducing into the subterranean formation the treatment fluid at or above a pressure sufficient to create or enhance one or more fractures in the subterranean formation, wherein the nano-particles are included as proppant in the treatment fluid; and depositing at least a portion of the nano-particles in the one or more fractures, wherein the fractures are prevented from fully closing upon the release of pressure and wherein the fractures form conductive channels through which fluids may flow. - View Dependent Claims (2, 3, 4)
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5. A method of treating a subterranean formation comprising:
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providing particulate materials, wherein the particulate materials comprise three size ranges disjointed from one another, wherein a first size range includes nano-particles from about 7 nm to about 50 nm, wherein a second size range includes particles from about 0.05 microns to about 0.5 microns, and wherein a third size range includes particles from about 200 microns to about 800 microns, wherein the nano-particles comprise nano-boron, wherein the nano-particles are non-colloidal and encapsulated in a degradable coating; including the particulate materials in a treatment fluid; introducing the treatment fluid comprising the particulate materials into the subterranean formation at or above a pressure sufficient to create or enhance one or more fractures in the subterranean formation, wherein the fractures form conductive channels through which fluids may flow, determining a packing volume fraction for the particulate materials in the treatment fluid. - View Dependent Claims (6, 7, 8)
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9. A method of treating a subterranean formation comprising:
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providing particles, wherein the nano-particles are particulate and non-colloidal, wherein the nanoparticles comprise nano-boron; including the nano-particles in a treatment fluid; introducing into the subterranean formation the treatment fluid at or above a pressure sufficient to create or enhance one or more fractures in the subterranean formation, wherein the nano-particles are included as proppant in the treatment fluid; and depositing at least a portion of the nano-particles in the one or more fractures, wherein the fractures are prevented from fully closing upon the release of pressure and wherein the fractures form conductive channels through which fluids may flow. - View Dependent Claims (10, 11, 12, 13, 14)
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Specification
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Current AssigneeHalliburton Energy Services Incorporated (Halliburton Company)
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Original AssigneeHalliburton Energy Services Incorporated (Halliburton Company)
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InventorsRoddy, Craig Wayne, Chatterji, Jiten, Cromwell, Roger Stanley
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Primary Examiner(s)Figueroa, John J
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Application NumberUS14/025,638Publication NumberTime in Patent Office1,181 DaysField of SearchNoneUS Class Current1/1CPC Class CodesB82Y 30/00 Nanotechnology for material...B82Y 99/00 Subject matter not provided...C04B 14/062 Microsilica, e.g. colloïdal...C04B 14/30 Oxides other than silica fe...C04B 14/303 AluminaC04B 14/308 Iron oxideC04B 20/008 Micro- or nanosized fillers...C04B 20/10 Coating or impregnating roo...C04B 2111/00008 Obtaining or using nanotech...C04B 28/02 containing hydraulic cement...C09K 2208/10 Nanoparticle-containing wel...C09K 8/426 for pluggingC09K 8/428 for squeeze cementing, e.g....C09K 8/467 containing additives for sp...C09K 8/62 Compositions for forming cr...C09K 8/80 Compositions for reinforcin...E21B 33/14 for cementing casings into ...E21B 43/267 reinforcing fractures by pr...Y10S 507/906 Solid inorganic additive in...Y10S 977/963 Miscellaneous
