Class / Patent application number | Description | Number of patent applications / Date published |
166271000 | Including fracturing or attacking formation | 28 |
20100018705 | LIQUID BREAKER FOR ACID FRACTURING FLUIDS - Methods and compositions of acid fracturing formations are provided. The fracturing fluid includes a liquid breaker that decreases the viscosity of the fracturing fluid over time. The liquid breaker can also be produced in situ. The liquid breaker includes fluoroboric acid. | 01-28-2010 |
20100018706 | PARTICLES COMPRISING A FLUORINATED SILOXANE AND METHODS OF MAKING AND USING THE SAME - Particles, including proppants, comprising a fluorinated siloxane. The particles are useful as proppants in fractured a subterranean geological formation comprising hydrocarbons. | 01-28-2010 |
20100071900 | DRAINAGE OF HEAVY OIL RESERVOIR VIA HORIZONTAL WELLBORE - Systems and methods for drainage of a heavy oil reservoir via a horizontal wellbore. A method of improving production of fluid from a subterranean formation includes the step of propagating a generally vertical inclusion into the formation from a generally horizontal wellbore intersecting the formation. The inclusion is propagated into a portion of the formation having a bulk modulus of less than approximately 750,000 psi. A well system includes a generally vertical inclusion propagated into a subterranean formation from a generally horizontal wellbore which intersects the formation. The formation comprises weakly cemented sediment. | 03-25-2010 |
20100101789 | Engineered, Scalable Underground Storage System and Method - An engineered, scalable underground containment system and method for storing compressed gases or liquids in permeable rock formations using conventional drilling techniques. The porosity and permeability of the formation may be enhanced to maximize reservoir capacity and increase the rate at which gases and liquids can be introduced into and removed from the reservoir. In some embodiments, layers of cap rock in the formation are utilized as containment barriers, and in some, containment barriers are constructed around the storage zones. | 04-29-2010 |
20100108316 | METHOD OF IMPROVING RECOVERY FROM HYDROCARBON RESERVOIRS - A method of increasing the recovery of hydrocarbons from a highly fractured reservoir is described using the steps of injecting into the reservoir a membrane-forming fluid to form a membrane over the surface of at least part of exposed formation, injecting into the reservoir a fluid to establish a chemical potential gradient across the membrane and letting fluid enter the formation across the membrane to increase the pressure inside the formation and to force additional hydrocarbon from the formation. | 05-06-2010 |
20100147515 | SURFACE MODIFICATION FOR CROSS-LINKING OR BREAKING INTERACTIONS WITH INJECTED FLUID - A method and apparatus for treating a subterranean formation with a fluid, including forming a fluid including a organosilane and a particulate and introducing the fluid into a subterranean formation with exposed surfaces, wherein the organosilane modifies the particulate or surfaces or both. Also, a method and apparatus for treating a subterranean formation with a fluid, including forming a fluid including an organosilane and introducing the fluid into a subterranean formation with exposed surfaces, wherein the organosilane modifies the surfaces with a first functional group. | 06-17-2010 |
20100175874 | FIBER LADEN ENERGIZED FLUIDS AND METHODS OF USE THEREOF - The present invention relates to aqueous oilfield treatment fluids containing a gas component and fibers, wherein the fluids may further include a viscosifying agent and/or proppant. The fluids have good proppant suspension and transport properties as well as excellent gas phase stability. Use of fluids comprising an aqueous medium, a gas component, viscosifying agent, and fibers for hydraulically fracturing a subterranean formation, cleanup operations, and gravel packing a wellbore, are also disclosed. | 07-15-2010 |
20100175875 | Squeeze Process For Reactivation Of Well Treatment Fluids Containing A Water-Insoluble Adsorbent - A process for fracturing a subterraneous formation in the production of an oil well is described. The process steps include injecting an initial charge of a mixture, the mixture being formed from at least a water-insoluble adsorbent and at least one well treatment agent, into a well bore formed in the subterraneous formation so as to form a downhole matrix within the formation; injecting a solution comprised of an additional amount of the well treatment agent into the formation after the initial charge of the at least one well treatment agent has been substantially depleted; and then pressurizing the well bore for a time and under conditions sufficient to reactivate the downhole matrix in the formation, so that the treatment agent activity of the matrix is increased relative to the treatment agent activity of the matrix just prior to injecting the solution. | 07-15-2010 |
20100252259 | OIL-BASED HYDRAULIC FRACTURING FLUIDS AND BREAKERS AND METHODS OF PREPARATION AND USE - A hydraulic fracturing fluid includes a hydrocarbon fluid and viscosifying agent, wherein the viscosified fluid is a Newtonian fluid; a hydrocarbon fluid and gelling agent, wherein the viscosified fluid is a power law fluid; a hydrocarbon fluid, a gelling agent, and a rheological additive, wherein the viscosified fluid is a yield power law fluid; or a hydrocarbon fluid, a gelling agent, a rheological additive, and solvent for the rheological additive, wherein the viscosified fluid is a yield power law fluid. The hydrocarbon fluid is preferably weighted with nano-scale or self suspending weighting agents. The hydraulic fracturing fluids are prepared for use in fracturing a subterranean petroliferous formation. A weighted (preferably with nano-scale weighting agent), oil-based hydraulic fracture fluid breaker is also disclosed. A method is disclosed for subsequently recovering a substantial fraction of the fracturing fluid conventionally or by applying a viscosity breaker and recovering the viscosity-broken fracturing fluid conventionally. | 10-07-2010 |
20100282462 | METHODS FOR MAKING AND USING UV/EB CURED PRECURED PARTICLES FOR USE AS PROPPANTS - Disclosed herein are methods of making free flowing coated particles and low temperature including a step of curing the coating with UV light or electron beam. Each particle has a precured coating disposed upon a substrate. Methods of using the particles are also disclosed. | 11-11-2010 |
20110042083 | Method of improving waterflood performance using barrier fractures and inflow control devices - The present invention is directed to a method of hydrocarbon production from a hydrocarbon reservoir. The method includes providing a substantially horizontal wellbore having at least one productive interval within a hydrocarbon reservoir and forming at least one non-conductive transverse fracture in the reservoir along the substantially horizontal wellbore. An injection well is also provided. A fluid is injected into the reservoir through the injection well to displace hydrocarbons within the reservoir toward a production portion of the substantially horizontal wellbore. Hydrocarbons are drained from the reservoir into at least one production interval of the substantially horizontal wellbore. Fluid production from the at least one production interval into the substantially horizontal wellbore flows through an inflow control device that can restrict the fluid flow. A non-conductive transverse fracture can form a barrier within the reservoir to divert injected fluids to increase sweep efficiency and reduce the influx of injected fluids into the production interval. | 02-24-2011 |
20110108272 | Downhole progressive pressurization actuated tool and method of using the same - A method of servicing a subterranean formation comprising positioning a wellbore servicing tool comprising an axial flowbore within a wellbore, making a first application of pressure to the axial flowbore of the wellbore servicing tool; wherein the pressure within the wellbore servicing tool is at least a first upper threshold during the first application of pressure, allowing the pressure within the axial flowbore following the first application of pressure to fall below a first lower threshold, making a second application of pressure to the axial flowbore of the wellbore servicing tool, wherein the pressure within the wellbore servicing tool is at least a second upper threshold during the second application of pressure, allowing a second subsiding of pressure within the axial flowbore following the second application of pressure to fall a second lower threshold, and communicating a fluid to the wellbore, the subterranean formation, or both via one or more ports of the wellbore servicing tool. | 05-12-2011 |
20110146980 | METHODS OF USE OF A SALT SOLUTION OF MONOVALENT AND DIVALENT CATIONS IN HYDRAULIC FRACTURING - The invention provides a method for fracturing a subterranean formation penetrated by a well bore, by formulating a fracturing fluid useful in hydrocarbon drilling having the properties of both a dispersing fracture solution and an aggregating fracture solution. In particular, the dispersing properties of the stabilizing fracture solution are able to act as a dispersing fracture fluid in the clay and earthen materials discharged from the pay zone, in the flow-back fluids during hydraulic fracturing. At the same time, aggregating properties of the stabilizing solution stabilizes the pay zone. This stabilization property allows the flow of hydrocarbon through the fractures for a significantly longer time than with prior art fluids. | 06-23-2011 |
20110192601 | METHOD FOR DRILLING AND FRACTURE TREATING MULTIPLE WELLBORES - A method for drilling and completing multiple wellbores in a subsurface rock formation includes drilling a first wellbore along a first selected trajectory through the rock formation. The first wellbore is fracture treated and then abandoned. A second wellbore is drilled along a second selected trajectory through the rock formation. The second trajectory is laterally spaced from the first trajectory. The second wellbore is then fracture treated and abandoned. A third wellbore is drilled along a third selected trajectory through the rock formation. The third trajectory is disposed between the first and second trajectories. The third wellbore is fractured treated such that a fracture network extending therefrom hydraulically connects to fracture networks extending from the first and second wellbores. | 08-11-2011 |
20110259584 | Fractionation system and methods of using same - A fractionation system is disclosed, the system having a fractionation manifold with a plurality of connectors in fluid communication with one another and a plurality of valves disposed adjacent the connectors for selectively flowing fluid through the manifold. The connectors define a plurality of exterior ports for communication with wellstrings and fracturing fluid sources. A primary choke in communication with a tubing string and a secondary choke in communication with a casing string can be engaged with exterior ports, the secondary choke useable as a backup choke and for inducing sandouts. The present system can achieve a flow rate of up to 80 barrels per minute, or more, using only a single manifold and single power unit, and can be wirelessly operated. System components can incorporate self-aligning, self-positioning skids, or alternatively, the system can be transported using a single skid to facilitate portability and installation. | 10-27-2011 |
20110290483 | SPONTANEOUS SUPERCRITICAL FLUID RECOVERY AND REFINING OF HYDROCARBONS FROM HYDROCARBON-BEARING FORMATIONS APPLYING FUEL CELL GAS IN SITU - A plume of combined gases are infused into hydrocarbon-bearing formations, “inert” as the major gas and “reactive” as the minor gas, where the minor gas reacts with hydrocarbons to fully saturate hydrocarbons with supercritical fluid, which migrate hydrocarbons out of formations, even at great distances from the regulated fuel cell source. Coal, tar sands, petroleum-contaminated soil, and/or oil wells that have lost gas pressure can also be desorbed by this in-situ method. | 12-01-2011 |
20120031611 | Erosion Migration Arrangement, Erodable Member and Method of Migrating a Slurry Flow Path - An erosion migration arrangement includes a tubular having a window therein. A body positioned within a portion of the window is configured to sacrificially erode in response to a slurry flowing through the window to thereby migrate a location of impact on a member positioned downstream of the window. | 02-09-2012 |
20120160484 | Method of Improving Waterflood Performance using Barrier Fractures and Inflow Control Devices - Methods including providing a substantially horizontal wellbore having at least one productive interval within a hydrocarbon reservoir and forming at least one non-conductive transverse fracture in the reservoir along the substantially horizontal wellbore. An injection well is also provided. A fluid is injected into the reservoir through the injection well to displace hydrocarbons within the reservoir toward a production portion of the substantially horizontal wellbore. Hydrocarbons are drained from the reservoir into at least one production interval of the substantially horizontal wellbore. Fluid production from the at least one production interval into the substantially horizontal wellbore flows through an inflow control device that can restrict the fluid flow. A non-conductive transverse fracture can form a barrier within the reservoir to divert injected fluids to increase sweep efficiency and reduce the influx of injected fluids into the production interval. | 06-28-2012 |
20130105154 | WELL TREATMENT AGENTS COATED WITH ALTERNATING LAYERS OF POLYIONIC MATERIALS AND METHODS OF USING THE SAME | 05-02-2013 |
20130277050 | INTERACTING HYDRAULIC FRACTURING - A fracture extending away from a first subterranean well and toward a second subterranean well may be initiated by pumping fluid into the first subterranean well. The fracture may be propagated further towards the second subterranean well by continuing to pump fluid into the first subterranean well, while monitoring a pressure in the second subterranean well. Proppant may be pumped into the second subterranean well via the first subterranean well and the fracture upon detection of a change in the monitored pressure in the second subterranean well. The change in monitored pressure in the second subterranean well may be sufficient to indicate that the first and second wells are in fluid communication and interacting via the fracture. | 10-24-2013 |
20140069642 | ENHANCED OIL RECOVERY SYSTEM AND A METHOD FOR OPERATING AN UNDERGROUND OIL RESERVOIR - The present invention relates to an enhanced oil recovery system ( | 03-13-2014 |
20140076554 | METHOD FOR IMPROVED GRAVITY DRAINAGE IN A HYDROCARBON FORMATION - The invention relates to a method for improved gravity drainage in a hydrocarbon formation, the method comprising: drilling a production well along a substantially horizontal production layer of a reservoir; drilling a perforation well above the production well, either in the production layer or in a layer separated from the production layer by a fluid barrier; perforating the formation adjacent the perforation well to provide a fluid flow path to or within the production layer; inducing gravity drainage through the fluid flow path; and producing fluids collected in the production well. | 03-20-2014 |
20140151041 | FOAMING COMPOSITION WITH WETTABILITY MODIFYING AND CORROSION INHIBITORY PROPERTIES FOR HIGH TEMPERATURE AND ULTRA-HIGH SALINITY - The present invention relates to a method of obtaining and using foaming compositions with wettability-modifying and corrosion inhibitory properties that control the channeling of fluids in naturally fractured carbonate reservoirs, favorably alter the rock wettability in crude oil enhanced recovery processes and control uniform corrosion problems occurring in production rigs under high temperature and ultra-high salinity conditions by the synergistic effect resulting from the supramolecular interaction of alkyl amido propyl hydroxysultaines or alkyl hydroxysultaines with sodium alkyl hydroxysulfonates and sodium alkenyl sulfonates having the formula (1). The foaming compositions with wettability-modifying and corrosion inhibitory properties are tolerant to high concentrations of divalent ions such as calcium, magnesium, strontium and barium and are suitable for use in the reservoir, seawater and/or congenital water characteristic of the reservoir for transporting the crude oil from the reservoir. | 06-05-2014 |
20140246194 | CONTROL FRACTURING IN UNCONVENTIONAL RESERVOIRS - The application is related to improving recovery of fracturing fluids from subterranean target earth intervals. The application is also related to improving hydrocarbon productivity of subterranean target earth intervals. The application is also related to controlling the development of fractures in subterranean target earth intervals. | 09-04-2014 |
20150007988 | Hydrocarbon Recovery Process Exploiting Multiple Induced Fractures - A method for enhancing production from multiple-fractured underground “tight” formations. Spaced upwardly-extending injection fissures are created along a horizontal injection wellbore, and upwardly-extending collection fissures, alternately spaced with the injection fissures, are created along the horizontal injection wellbore or another adjacent production wellbore. The injection wellbore is supplied with fluid under pressure, which flows into such created fissures and drives reservoir fluids within the formation to the remaining (alternately) spaced adjacent fissures along such wellbore or another parallel adjacent (production) wellbore, thereby allowing reservoir fluids to flow downwardly along such alternately spaced production fissures for collection. In a refinement, production is carried out initially from both the production and injection wellbores, and upon the rate of production of hydrocarbons slowing, production from the injection wellbore is stopped and a fluid is injected therein and thus into the formation via the alternate spaced fissures, thereby re-pressurizing the formation. | 01-08-2015 |
20150129209 | Methods and Systems for Causing Reaction Driven Cracking in Subsurface Rock Formations - Methods and systems for causing reaction driven cracking in subsurface rock formations are disclosed. In some embodiments, the methods include the following: drilling one or more holes in a substantially porous subsurface rock formation, the one or more holes in fluid communication with pores in the subsurface rock formation; injecting in the pores via at least one of the holes one or more fluids, wherein the one or more fluids include a gas; and chemically reacting the one or more fluids within the pores thereby causing cracking in the substantially porous subsurface rock formation. | 05-14-2015 |
20150345267 | Method of Forming Directionally Controlled Wormholes in a Subterranean Formation - A method for forming extended wormholes in a subsurface formation comprising locating producer wells, injection wells, and guard wells in a field; determining a flux rate for a formation-dissolving fluid such as an acid, the flux rate being dependent upon different variables including the composition of the rock matrix making up the subsurface formation and the type of acid selected; injecting a guard fluid into the subsurface formation, through at least one guard well to form designed pressure boundaries and injecting the acid into the formation at a rate to reach the determined flux rate and thereby forming an extended network of wormholes through the subsurface formation in a defined direction or plane, with or without guard wells. | 12-03-2015 |
20150345268 | APPLICATIONS OF ULTRA-LOW VISCOSITY FLUIDS TO STIMULATE ULTRA-TIGHT HYDROCARBON-BEARING FORMATIONS - A method of recovering hydrocarbons from a hydrocarbon-bearing subterranean formation with a matrix permeability of less than 1 mD is disclosed. The method includes injecting a volume of a first fluid having a viscosity lower than the viscosity of water into an injection well present in the formation; separately injecting a volume of a second fluid into the formation before, after, or before and after injecting the first fluid; and producing at least a fraction of the injected volume of the first fluid and hydrocarbons from the formation through a production well present in the formation. | 12-03-2015 |