| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 166249000 | Vibrating the earth or material in or being placed in the earth pores | 54 |
| 20080302528 | Borehole Seismic Pulse Generation Using Rapid-Opening Valve - During a surge-pulsing operation in a borehole (e.g an oil-well undergoing remediation) liquid is stored under pressure upstream of a valve, and then released through the valve suddenly enough to create a seismic wave, which propagates into the formation around the borehole, and assists the surge-pulsing to improve the conductivity and liquid-injectability of the formation. The downhole valve achieves the rapid-opening requirement by virtue of its geometrical layout, as dictated by the strictures of the downhole environment. | 12-11-2008 |
| 20090008088 | Oscillating Fluid Flow in a Wellbore - A system for oscillating compressible working fluid in a wellbore defined in a subterranean formation includes a fluid supply and a fluid oscillator device. The fluid supply communicates compressible working fluid into a conduit disposed within the wellbore. The fluid oscillator device is configured to reside in the wellbore. The fluid oscillator device includes an interior surface that defines an interior volume of the fluid oscillator device, an inlet into the interior volume, and an outlet from the interior volume. The interior surface is static during operation to receive the compressible working fluid into the interior volume through the inlet and to vary over time a flow rate of the compressible working fluid from the interior volume through the outlet. | 01-08-2009 |
| 20090032248 | METHOD FOR PRODUCTION, SUBSTITUTION, OR MINING OF GAS HYDRATE - A gas hydrate is produced by injecting guest molecules into voids in a layer of which temperature and pressure condition allows the guest molecules to cause to form hydrate, in a form of emulsion where liquid of the guest molecules is dispersed in water as minute particles having a size of less than a size of voids, and thereby dispersing the guest molecules uniformly into the voids in the layer. | 02-05-2009 |
| 20090065197 | ENHANCING WELL FLUID RECOVERY - A technique that is usable with a well includes communicating fluid downhole in the well. The technique includes enhancing fluid recovery from a reservoir by, downhole in the well, controlling the pumping of the fluid to create a pressure wave which propagates into the reservoir. | 03-12-2009 |
| 20090090503 | HYDRAULIC ACTUATED PUMP SYSTEM - The invention is directed to a hydraulic actuated pump system which lifts production fluids and re-circulating hydraulic fluid from a petroleum well. Additives may be added to the hydraulic fluid to apply direct chemical treatment to the production formation. A sonic stimulator may be included to stimulate and produce the same liquids from the horizontal section of the well. | 04-09-2009 |
| 20090120633 | Method for Stimulating a Well Using Fluid Pressure Waves - Methods for cleaning or stimulating a well include providing an isolation device, providing a penetration device, isolating a zone, and penetrating a portion of the formation utilizing the penetration device. Isolating and penetrating may occur in a single trip into the well. The isolation device may include one or more packers. The penetration device may be a pulsating/oscillating hydrajet that introduces fluid pressure waves into the formation. | 05-14-2009 |
| 20090173492 | SURFACE ACTIVATED DOWNHOLE SPARK-GAP TOOL - A completion mounted spark gap tool comprising a completion component housing; a spark gap device having a plurality of electrodes at the housing and configured to produce a shockwave having a frequency in the range of about 0.1 to about 100 HZ; a voltage source in operable communication with the electrodes and a method for far field stimulation. | 07-09-2009 |
| 20090178801 | Methods for injecting a consolidation fluid into a wellbore at a subterranian location - Disclosed are apparatuses and methods for stabilizing portions of a subterranean formation and controlling the production of water from those subterranean formations. In one aspect, a method of treating a plurality of discrete portions of a subterranean formation penetrated by a wellbore, the method comprising the steps of: (a) moving a treatment tool through the wellbore on work tubing to a desired subterranean location, wherein the treatment tool comprises: (i) a fluidic oscillator; and (ii) a lower packer positioned below the fluidic oscillator; (b) expanding the cross-section of the lower packer to engage the wellbore, thereby isolating a portion of the wellbore from another portion below the lower packer; (c) injecting a consolidation fluid through the tubing and through the fluidic oscillator into the isolated portion of the wellbore; (d) reducing the cross-section of the lower packer, thereby disengaging the tool from the wellbore. | 07-16-2009 |
| 20090200017 | METHOD AND DEVICE FOR TREATING BOTTOM-HOLE ZONES OF OIL-AND-GAS-BEARING FORMATIONS - The invention relates to the field of the oil producing industry and particularly to apparatus the cleaning of face zones and filters of gas-and-oil-producing and water-injection wells. | 08-13-2009 |
| 20090200018 | SYSTEMS AND METHODS FOR PRODUCING OIL AND/OR GAS - A system comprising a carbon disulfide formulation storage; a mechanism for releasing at least a portion of the carbon disulfide formulation into a formation; and a mechanism for creating a pulse in the carbon disulfide formulation in the formation. | 08-13-2009 |
| 20090200019 | SYSTEM AND METHOD FOR ENHANCED OIL RECOVERY USING AN IN-SITU SEISMIC ENERGY GENERATOR - Disclosed are systems and methods for generating seismic acoustic waves, and more particularly a downhole electro-hydraulic seismic pressure wave source to enhance oil recovery. | 08-13-2009 |
| 20090288820 | Method Of Manufacture And The Use Of A Functional Proppant For Determination Of Subterranean Fracture Geometries - Proppants having added functional properties are provided, as are methods that use the proppants to track and trace the characteristics of a fracture in a geologic formation. Information obtained by the methods can be used to design a fracturing job, to increase conductivity in the fracture, and to enhance oil and gas recovery from the geologic formation. The functionalized proppants can be detected by a variety of methods utilizing, for example, an airborne magnetometer survey, ground penetrating radar, a high resolution accelerometer, a geophone, nuclear magnetic resonance, ultra-sound, impedance measurements, piezoelectric activity, radioactivity, and the like. Methods of mapping a subterranean formation are also provided and use the functionalized proppants to detect characteristics of the formation. | 11-26-2009 |
| 20090308599 | Method of enhancing treatment fluid placement in shale, clay, and/or coal bed formations - Provided are methods that include a method comprising: placing a treatment fluid into a well bore that penetrates a subterranean formation, wherein the subterranean formation comprises at least one selected from the group consisting of: a shale, a clay, a coal bed, and a combination thereof; and applying a pressure pulse to the treatment fluid. | 12-17-2009 |
| 20100006281 | Harvesting hydrocarbons and water from methane hydrate deposits and shale seams - A method of extraction of fuels, organic pollutants, and elements from Methane hydrate deposits, shale seams and the soil is described which freezes the zone and heats the center carrying the fuel, chemicals and water in these deposits and seams from where they are found, be it deep in the sea or on land, and carries them into the condensing unit in inert Nitrogen gas. Required drilling on the surface or sea bottom includes a main shaft and with auxiliary narrow drillings widely spaced from the shaft. The extraction zone, which is first cooled to brittle cold using the evaporation of Liquid Nitrogen and fractured with vibrations, is heated to the highest temperature of the hydrocarbon fraction desired to be extracted. The evaporating hydrocarbons are extracted in a Nitrogen gas carrier, a recognized fire suppressant (NFPA Code 2000). To speed the extraction rate, tonal input from two or more sounding units vibrates the seam structure freeing the evaporated hydrocarbons allowing more rapid escape into the shaft. To prevent air loss in aquifers, ice barriers seal the zone periphery. These hydrocarbons are separated into the hydrocarbons fractions, into fuel fractions as heating oil, kerosene, gasoline, ethers, and fuel gas including methane, Argon/Oxygen and rare gas segments, or, if pollutants, into the separate chemicals by boiling point. The thermal gradient of the extraction pipe is implemented by sourcing the Nitrogen from Liquid Nitrogen and bundling those pipes with the extraction pipe condensing its contents by hydrocarbon fractions into vessels and gas drums depending on boiling points of fractions. Water is separated from the gasoline segment and purified first by separation and then by freezing. The extraction of deep deposits layer the extraction zones as well as work neighboring extraction zones covering many acres. Fuel gases can be liquefied or burned in an on-site electric generating plant. | 01-14-2010 |
| 20100044032 | Method for completion, maintenance and stimulation of oil and gas wells - A method for inducing motion in solid particulates in a solid/liquid mixture located in proximity to the periphery of a wellbore or in the formation zone adjacent to a wellbore in an oil or gas formation. The method includes introducing a gas impulse device into the wellbore. It then requires firing the gas impulse device so as to generate impulses of high pressure compressed gas, thereby to produce pressure waves within the wellbore and its surrounding formation. This causes motion of the solid particulates which permits settling and/or redistribution of the solid particulates. In some cases it even causes particulate flow, as in cold heavy oil production with sand (CHOPS). The method also frees blockages caused by the solid particulates and stimulates productivity. The method may inter alia be used in gravel pack construction and maintenance, well cementing operations and in CHOPS stimulation. | 02-25-2010 |
| 20100193180 | METHOD FOR PRODUCTION, SUBSTITUTION, OR MINING OF GAS HYDRATE - A gas hydrate is produced by injecting guest molecules into voids in a layer of which temperature and pressure condition allows the guest molecules to cause to form hydrate, in a form of emulsion where liquid of the guest molecules is dispersed in water as minute particles having a size of less than a size of voids, and thereby dispersing the guest molecules uniformly into the voids in the layer. | 08-05-2010 |
| 20100206556 | ENHANCING THE RECOVERY OF CRUDE OIL WELLS - Described is a method for introducing at least one manufactured gas in the area of an oil reservoir for the purpose of enhancing the recovery of the oil reservoir. The gas is at least temporarily introduced in shock waves. | 08-19-2010 |
| 20100300681 | METHODS AND APPARATUS FOR ENHANCED OIL RECOVERY - Methods, apparatus and systems for controllably mobilizing, flowing and maneuvering the flow of hydrocarbon-containing materials within and about a subterranean reservoir. The system comprises selectively positioning at a ground surface level above a subterranean reservoir containing hydrocarbon-containing materials, at least three seismic apparatus spaced apart in a triangulated configuration. The system is provided with an electronic seismic control device configured to controllably communicate with and cooperate with each of the seismic apparatus to concurrently modulate the amplitudes and frequencies of the vibrational energies produced therefrom. The system is provided with a sensing apparatus configured to detect and monitor changes in the fluidity and movement of the hydrocarbon-containing materials about the subterranean reservoir. The electronic seismic control device is controllably manipulated to precisely modulate the frequencies and amplitudes of the seismic vibrational energies emitted by each of the seismic apparatus to controllably maneuver the flow of the fluidized hydrocarbon-containing materials about the subterranean reservoir. | 12-02-2010 |
| 20110079386 | System and Method for Downhole Communication - A method of servicing a wellbore extending from a surface and penetrating a subterranean formation is provided. The method comprises placing a workstring in the wellbore, wherein the workstring comprises at least a first downhole tool, a signal receiver subassembly, and a conveyance between the first downhole tool and the surface. The method further comprises the signal receiver subassembly receiving a first signal generated by contact between the wellbore and the workstring and initiating a first function of the first downhole tool based on the first signal. | 04-07-2011 |
| 20110094732 | Vibrating system and method for use in sand control and formation stimulation in oil and gas recovery operations - A system and method for stimulating a formation penetrated by a wellbore and vibrating a device for supporting a gravel pack in the wellbore, according to which the build up of scale on the device is sensed and a corresponding signal is output. A tool is lowered into the wellbore, and includes a driver for driving an acoustic transducer coupled to the device for vibrating the device and stimulating the formation. | 04-28-2011 |
| 20110108268 | METHOD OF TREATING BOTTOM-HOLE FORMATION ZONE - The invention relates to the methods of treating a bottom-hole formation zone to increase in well productivity and rocks permeability. According to this method a pulse generator should be tripped in a well and the formation pulse treatment should be conducted by generating negative pressure pulses of amplitude higher than the tensile formation strength. The method provides the high fissuring rate by breaking formation fluid-bearing permeable rocks around a wellbore. | 05-12-2011 |
| 20110127031 | SYSTEM AND METHOD FOR INCREASING PRODUCTION CAPACITY OF OIL, GAS AND WATER WELLS - The invention provides an apparatus, method and system for stimulating production of a natural resource (e.g., Oil, gas or water) producing well using vibrational energy delivered to the geological formation through a device that maybe permanently installed, and continuously or periodically operated even during recovery of the natural resource. The apparatus is of a downhole type. The apparatus is constructed to resist corrosion and provides one or more heat sink chambers for controlling heat dissipation during operation. The system provided by the invention is capable of monitoring production, adapting stimulation parameters based on user input and other pertinent parameters. | 06-02-2011 |
| 20110139440 | METHOD AND APPARATUS FOR STIMULATING WELLS - The invention provides an apparatus and method for stimulating a borehole of a well. The invention provides an apparatus that generates low-frequency seismic type elastic waves that propagate to the geologic formation and in order to enhance the movement of fluids in the geologic formation toward a well. The apparatus may operate automatically driven by a power source that may be located on the ground surface. The regime of operation may be determined by user input. Operation of the apparatus may carried out while production of a natural resource is ongoing. | 06-16-2011 |
| 20110139441 | SYSTEM, APPARATUS AND METHOD FOR STIMULATING WELLS AND MANAGING A NATURAL RESOURCE RESERVOIR - The invention provides a system, method and downhole tool for stimulating a borehole of wells in reservoir. The invention allows a user to determine the type of stimulation adequate to promote production in a reservoir, and apply one or more treatments to each individual well by activating one or more modules comprised in the downhole tools. Furthermore, the tool comprises sensors that collect information in real-time of the state of the reservoir. The data collected is processed and newly acquired data is compared with previously acquired data to assess the development of production and further plan treatment strategies to optimize production. | 06-16-2011 |
| 20120043075 | METHOD AND ASSEMBLY FOR RECOVERING OIL USING ELASTIC VIBRATION ENERGY - A method and assembly for recovering oil using elastic vibration energy involves placing a downhole apparatus in a well, which downhole apparatus is connected to aboveground power supply units and contains an ultrasonic transducer that provides for the generation of high frequency elastic vibrations, exciting elastic vibrations of different frequencies and then repeatedly applying the elastic vibrations to the oil formation, wherein both high and low frequency vibrations are applied to the formation. The low frequency vibrations are generated with the aid of an electric pulse device which is connected to an aboveground power supply and includes the following electrically interconnected components: a charger, a unit of energy storage capacitors, a discharge unit with electrodes, and two switching devices. The method and assembly make it possible to recover oil from depths of over 2000 meters and to act effectively on the formation being treated. | 02-23-2012 |
| 20120043076 | HYDRAULIC ACTUATED PUMP SYSTEM - The invention is directed to a hydraulic actuated pump system which lifts production fluids and re-circulating hydraulic fluid from a petroleum well. Additives may be added to the hydraulic fluid to apply direct chemical treatment to the production formation. A sonic stimulator may be included to stimulate and produce the same liquids from the horizontal section of the well. | 02-23-2012 |
| 20120061077 | Sonic Enhanced Oil Recovery System and Method - To increase oil recovery from an oil reservoir, an acoustic transmitter is disposed in a source well and an acoustic receiver is disposed in a producing well. A portion of the oil reservoir is disposed between the source well and the producing well. An acoustic signal is transmitted from the acoustic transmitter at frequencies of 30 Hz and greater. The transmitted acoustic signal is received by the acoustic receiver and a resonant frequency of the portion of the oil reservoir is determined based on attenuation of the transmitted signal. The acoustic signal is transmitted from the acoustic transmitter at the determined resonant frequency to reduce a boundary layer effect between oil in the oil reservoir and a surface of a substrate in the oil reservoir and between the oil and a brine interface in the oil reservoir. | 03-15-2012 |
| 20120132416 | METHOD, SYSTEM AND APPARATUS FOR SYNERGISTICALLY RAISING THE POTENCY OF ENHANCED OIL RECOVERY APPLICATIONS - The invention provides an apparatus, method and system for stimulating production of a natural resource (e.g., Oil, gas or water) producing well using vibrational energy delivered to the geological formation combined with one or more existing EOR treatments. Pressure waves are applied through a device that maybe permanently installed, and continuously or periodically operated during EOR treatment and even later during recovery of the natural resource. The vibrational energy provide a synergistic effect with existing EOR treatments, enhancing the outcome of EOR treatments. The invention provides a downhole type apparatus constructed to resist corrosion and provides one or more heat sink chambers for controlling heat dissipation during operation. The system provided by the invention is capable of monitoring production, adapting stimulation parameters based on user input and other pertinent parameters. | 05-31-2012 |
| 20120175107 | METHOD AND APPARATUS FOR PRODUCING SHOCK WAVES IN THE BOREHOLE OF WELLS FILLED BY LIQUID - The method and apparatus for producing shock waves in a well wherein a device connected to the bottom of the tubing string in the borehole of the well filled by liquid and containing the upper and lower plungers movably arranged within corresponding cylinders for compressing a liquid the compression chamber and discharging the liquid into the borehole on upstroke thereby generating a shock wave. In addition, providing an exit of the lower plunger out of the lower cylinder at the top of upstroke of pumping unit on the distance λ determined by the following formulae: | 07-12-2012 |
| 20120211225 | Method and apparatus for enhancement of fracture fluid clean-up with periodic shock waves - The method and apparatus for enhancing fluid removal from a fracture in a geologic formation by applying periodic/cyclic shock waves to the fracture in a formation surrounding a wellbore which has undergone fracturing. In accordance with the invention, the method includes the steps of arranging a device attached to the end of tubing inside the wellbore in the vicinity of said fracture for generating shock waves, providing a liquid via tubing into the device for generating shock waves with the amplitude P | 08-23-2012 |
| 20120247757 | Downhole Oscillator - An exemplary embodiment of the downhole oscillator includes an outer housing at least partially surrounding a motor and a removably coupled eccentric member. The motor at least partially drives the rotation of the eccentric member thereby producing oscillations or vibrations along the outer diameter of at least a portion of the downhole assembly. The motor's action is at least partly facilitated by expulsion of fluid from the drill string through the motor and onto the outer housing interior such that the force of the fluid produces rotation in the motor. Rotation may be enhanced through similar expulsion of fluid from the eccentric member. Alternatively, the fluid may be expelled from the motor and/or eccentric member against the wellbore thereby providing the desired rotation. A method of use may include providing an outer housing, motor capable of producing rotational movement, and eccentric member and coupling same. | 10-04-2012 |
| 20120305240 | System and Method for Ultrasonically Treating Liquids in Wells and Corresponding Use of Said System - A treatment device for treating liquids in oil, gas or water wells comprises an ultrasonic treatment device ( | 12-06-2012 |
| 20130075086 | USING MICROSEISMIC ACTIVITY TO FACILITATE HYDROCARBON PRODUCTION IN TIGHT SAND AND SHALE RESERVOIRS - Naturally occurring microseismic events are monitored and utilized to synergistically augment a hydraulic fracturing process. Such events generally originate from the tidal dilational stress that makes it easier for fractures to open and slip. If the hydraulic fracturing process can be scheduled to occur coincident with elevated levels of naturally occurring microseismic activity, the efficiency of hydraulic fracturing can be increased. Accordingly, the resources consumed and the byproducts produced by the hydraulic fracturing process will be reduced as will be other elements of environmental damage. In like manner, where hydraulic fracturing cannot be used, the natural dilational stress may be synergistically enhanced with induced hydraulic pressures that are below the pressures required for conventional hydraulic fracturing. These periods of elevated microseismic activity may also be predicted based on natural cyclic phenomena, such as peak earth tides, which are known to be correlated with periods of higher microseismic activity. | 03-28-2013 |
| 20130146281 | Method and Acidizing Tool for Deep Acid Stimulation Using Ultrasound - A method of deep acid stimulation for a zone to be treated in an underground formation using an acidizing tool, the method including the steps of introducing the acidizing tool into the well bore, introducing the acid formulation onto the well bore wall at the treatment zone and introducing ultrasound energy into the underground formation at the treatment zone. The subsequent acid penetration depth is deeper than the initial acid penetration depth. A method of stress fracturing a portion of an underground formation includes the steps of introducing the acidizing tool into a well bore and introducing the acid formulation and the ultrasound energy at the focused treatment point. The weakened acidized spots in combination with the stress on the underground formation causes oriented stress-induced fractures to form that are fluidly coupled with the well bore. An acidizing tool includes an acid delivery system and an ultrasonic transmitter. | 06-13-2013 |
| 20130153211 | WAVE STIMULATION - According to some embodiments, a borehole deployable apparatus is described that can be used to generate strong vibrations in a subterranean rock formation. In some embodiments, the apparatus accelerates a mass using mechanisms built into the tool and causes the mass to strike the borehole wall. The mechanisms can control the mass acceleration, and the frequency of strikes. In some embodiments, the apparatus is designed for use in the field of petroleum recovery where the vibrations are used to create or re-establish a flow rate for the fluids in the formation. | 06-20-2013 |
| 20130220598 | System for Extracting Hydrocarbons From Underground Geological Formations and Methods Thereof - An ultrasonic fracking system and methods of using the same to extract hydrocarbons from underground geological formations (e.g., oil shale, coal beds, etc.) are disclosed. The system includes piezoelectric devices that are used to produce ultrasonic mechanical vibrations and induce fractures in the geological formations. In one embodiment, a system for extracting underground hydrocarbons comprises a plurality of piezoelectric devices capable of producing mechanical waves sufficient to fracture oil shale and other geological formations, a system of delivery for innocuous proppants to create a path of least resistance for enhanced hydrocarbon flow, and a vacuum pump connected to the fractures created by the piezoelectric devices to assist in removing the hydrocarbons. | 08-29-2013 |
| 20140014328 | HYDRAULIC ACTUATED PUMP SYSTEM - The invention is directed to a hydraulic actuated pump system which lifts production fluids and re-circulating hydraulic fluid from a petroleum well. Additives may be added to the hydraulic fluid to apply direct chemical treatment to the production formation. A sonic stimulator may be included to stimulate and produce the same liquids from the horizontal section of the well. | 01-16-2014 |
| 20140027110 | PLASMA SOURCE FOR GENERATING NONLINEAR, WIDE-BAND, PERIODIC, DIRECTED, ELASTIC OSCILLATIONS AND A SYSTEM AND METHOD FOR STIMULATING WELLS, DEPOSITS AND BOREHOLES USING THE PLASMA SOURCE - A plasma source for generating nonlinear, wide-band, periodic, directed, elastic oscillations in a fluid medium. The plasma source includes a plasma emitter having two electrodes defining a gap, a delivery device for introducing a metal conductor into the gap, and a high voltage transformer for powering the plasma emitter. A system and method for stimulating wells, deposits, and boreholes through controlled periodic oscillations generated using the plasma source. The system includes the plasma source, a ground control unit, and a support cable. In the method, the plasma source is submerged in the fluid medium of a well, deposit, or borehole and is used to create a metallic plasma in the gap. The metallic plasma emits a pressure pulse and shockwaves, which are directed into the fluid medium. Nonlinear, wide-band, periodic and elastic oscillations are generated in the fluid medium, including resonant oscillations by passage of the shockwaves. | 01-30-2014 |
| 20140144621 | NON-AQUEOUS HYDROCARBON RECOVERY - The present invention relates to in situ methods of separating, refining and extracting hydrocarbons from an oil formation. In embodiments of the present invention the in situ methods includes: (a) making a perforation in the oil sand formation, (b) disposing a non-polar substance into the perforation without addition of polar fluid, (c) subjecting the non-polar fluid composition disposed in the perforation to ultrasonic vibrations, and (d) extracting the hydrocarbon from the perforation in the oil sand formation. The present invention relates also to methods of separating, refining and extracting hydrocarbons from hydrocarbon matrices such as oil sand or oil shale. | 05-29-2014 |
| 20140216727 | HYDRAULIC DRILLSTRING SOUND GENERATOR - Acoustic radiators for coal bed methane or shale gas production are configured to be strategically placed on drillstrings within gas production exhaust boreholes and hydraulically powered so they will radiate intense harmonic sonic waves to shake the solid media immediate to the wall areas. The gas volume output that can be realized by an exhaust well depends highly on the permeability of the media, especially at inside faces of the borehole. The shaking half-opens up fractures and pores in the solid media. Thus the permeability of the media to gas improves under such shaking and gas collection efficiencies are improved. The beneficial effects can be increased by locating two or more acoustic radiators proximate to one another in a phased relationship. | 08-07-2014 |
| 20140216728 | SYSTEM AND METHOD TO INITIATE PERMEABILITY IN BORE HOLES WITHOUT PERFORATING TOOLS - A shockwave generator pre-treats one or more production zones within a well to facilitate recovery of liquid and gaseous hydrocarbons from the well. The well may be heated to a particular temperature, where after a cooling agent is introduced through the shockwave generator which effects a cooling action in the walls of the well and induces cracking which is propagated by the tremors or shocks of the cooling agent as it exits the generator. The initiated cracks may be further propagated using one or more additional stimulation methods, including a freeze-thaw method which is implemented through a subsystem having overlapping components with the shockwave generator subsystem. | 08-07-2014 |
| 20140246191 | SYSTEM AND METHOD FOR INCREASING PRODUCTION CAPACITY OF OIL, GAS AND WATER WELLS - The invention provides an apparatus, method and system for stimulating production of a natural resource (e.g., Oil, gas or water) producing well using vibrational energy delivered to the geological formation through a device that maybe permanently installed, and continuously or periodically operated even during recovery of the natural resource. The apparatus is of a downhole type. The apparatus is constructed to resist corrosion and provides one or more heat sink chambers for controlling heat dissipation during operation. The system provided by the invention is capable of monitoring production, adapting stimulation parameters based on user input and other pertinent parameters. | 09-04-2014 |
| 20140262228 | Mechanically Degradable Polymers For Wellbore Work Fluid Applications - A composition including a wellbore work fluid and a polymer having mechanically labile chemical bonds is injected downhole, and combines with fluid present downhole to yield a composite fluid. Mechanical energy (e.g., ultrasonic energy) is provided to the composite fluid downhole to cleave the mechanically labile chemical bonds in the polymer. The polymer may be used as a viscosifier, friction reducer, or fluid loss additive. Cleaving the mechanically labile chemical bonds with mechanical energy allows precise degradation downhole. | 09-18-2014 |
| 20140262229 | ACOUSTIC ARTIFICIAL LIFT SYSTEM FOR GAS PRODUCTION WELL DELIQUIFICATION - An acoustic artificial lift system and method for deliquification of gas production wells is provided. The artificial lift system comprises a down-hole acoustic tool suspended by a power conductive cable that converts electrical power to acoustic energy, thereby generating an acoustic wave. The acoustic tool is moved within the wellbore such that liquid molecules within the wellbore are vaporized by the acoustic wave. Natural gas produced by a producing zone of the subterranean reservoir transports the vaporized liquid molecules to the well surface. | 09-18-2014 |
| 20140262230 | Acoustic Artificial Lift System For Gas Production Well Deliquification - An artificial lift system and method for deliquification of gas production wells is provided. The artificial lift system comprises a downhole tool suspended by a power conductive cable in a wellbore. The downhole tool comprises an atomizing chamber for conversion of the liquid into droplets having an average diameter less than or equal to 10,000 microns. Natural gas produced by a producing zone of the subterranean reservoir transports the vaporized liquid molecules to the well surface. In operation, the atomizing chamber is located above the liquid column in the wellbore. | 09-18-2014 |
| 20140290935 | STIMULATION METHOD - The present invention relates to a stimulation method comprising the steps of arranging a fluid-activated gun in a well through a well head and/or a blowout preventer, dividing the well into a first and a second part, the first part being closer to the well head and/or blowout preventer than the second part, pressurising the first part of the well with a hot fluid, the hot fluid having a temperature which is higher than the temperature of the formation at a downhole point of injection, activating the fluid-activated gun, thereby converting energy from the pressurised hot fluid into mechanical waves, directing said mechanical waves into the formation, and injecting the hot fluid into the formation simultaneous to activation of the fluid-activated gun by means of the hot fluid. Furthermore, the present invention relates to a stimulation system for stimulation of oil production in an oil field. | 10-02-2014 |
| 20140332206 | STIMULATION METHOD - The present invention relates to a stimulation system for stimulation of oil production in an oil field. The stimulation system comprises a plurality wells, wherein a plurality of activation devices are arranged in the wells, and wherein the activation devices are activated with a frequency of once within a period of 1-365 days and with an energy discharge of at least 0.1 kilograms TNT equivalence per activation. Furthermore, the invention relates to a stimulation method. | 11-13-2014 |
| 20140352947 | STIMULATION METHOD - The present invention relates to a stimulation method for stimulating oil- or gas-containing parts of a formation, said parts being situated between an injection or a production well and a production well. The method comprises the steps of arranging at least one mechanical wave activation device in one or more injection and/or production wells below a well head or a blowout preventer for transmitting mechanical waves in one or more injection and/or production wells, arranging a plurality of mechanical wave sensors in one or more injection or production wells for receiving the mechanical waves transmitted from the mechanical wave activation device, injecting a pressurised fluid into the formation from the one or more injection and/or production wells towards the one or more production wells, activating the mechanical wave activation device with a preselected range of frequencies or a single frequency, thereby converting energy from the pressurised fluid into mechanical waves, receiving the mechanical waves transmitted by the mechanical wave activation device through the formation by the plurality of mechanical wave sensors, and creating a tomography of water, gas and/or oil interfaces in the part of the formation situated between the mechanical wave activation device in the injection and/or production well and the mechanical wave sensor in the at least one injection and/or production well from the mechanical wave received by the plurality of mechanical wave sensors arranged in the at least one injection and/or production well. Furthermore, the invention relates to a downhole stimulation system. | 12-04-2014 |
| 20150136386 | ENHANCING WELL FLUID RECOVERY - A system usable with a well includes a waveform generator for enhancing fluid recovery from a reservoir by controlling a production pump or an injection pump downhole in the well with waveform signals to create a pressure wave which propagates into the reservoir and enhances the recovery of the fluid. | 05-21-2015 |
| 20150354350 | Downhole Vibratory Communication System and Method - Systems and methods for controlling one or more downhole tools. A vibratory signal is produced by interaction between an actuation profile and a contact profile. In response to the vibratory signal, a controller actuates one or more downhole tools. | 12-10-2015 |
| 20160002994 | A METHOD FOR APPLYING PHYSICAL FIELDS OF AN APPARATUS IN THE HORIZONTAL END OF AN INCLINED WELL TO PRODUCTIVE HYDROCARBON BEDS - The invention relates to the field of oil and gas industry for stimulation of oil production. The method includes delivering and placing in a horizontal wellbore of a device equipped with electricity accumulating unit, a transmitting source having two electrodes, which are circuit closed by the operator's command with a calibrated metal wire, causing it to explode and form a high pressure targeted shockwave spread radially from given points of the horizontal wellbore in order to increase the permeability of a bottom hole zone of a working sections of the horizontal wellbore. The invention provides for the most effective and environmentally safe exploitation of inclined horizontal wells. | 01-07-2016 |
| 20160060987 | PLASMA SOURCE FOR GENERATING NONLINEAR, WIDE-BAND, PERIODIC, DIRECTED, ELASTIC OSCILLATIONS AND A SYSTEM AND METHOD FOR STIMULATING WELLS, DEPOSITS AND BOREHOLES USING THE PLASMA SOURCE - A plasma source for generating nonlinear, wide-band, periodic, directed, elastic oscillations in a fluid medium. The plasma source includes a plasma emitter having two electrodes defining a gap, a delivery device for introducing a metal conductor into the gap, and a high voltage transformer for powering the plasma emitter. A system and method for stimulating wells, deposits, and boreholes through controlled periodic oscillations generated using the plasma source. The system includes the plasma source, a ground control unit, and a support cable. In the method, the plasma source is submerged in the fluid medium of a well, deposit, or borehole and is used to create a metallic plasma in the gap. The metallic plasma emits a pressure pulse and shockwaves, which are directed into the fluid medium. Nonlinear, wide-band, periodic and elastic oscillations are generated in the fluid medium, including resonant oscillations by passage of the shockwaves. | 03-03-2016 |
| 20160177709 | Analyzing Subsurface Material Properties Using a Laser Vibrometer | 06-23-2016 |
| 20220136371 | ACOUSTIC STIMULATION - A downhole acoustic stimulation tool comprises: a sealed chamber containing a liquid; a pair of electrodes located in the chamber; at least one transducer arranged to generate an acoustic field between the electrodes thereby inducing cavitation in a volume of the liquid between the electrodes; and at least one capacitor configured to apply a pulse voltage across the electrodes when discharged, thereby causing the cavitating volume of liquid to form a plasma which collapses to form a shockwave. The at least one transducer constitutes a first energy source, and the at least one capacitor back and electrodes constitute a second energy source. Alternative forms and arrangements of the first and second energy sources are also disclosed. | 05-05-2022 |
