49th week of 2015 patent applcation highlights part 32 |
Patent application number | Title | Published |
20150345214 | Separate Shade Covering for Blinds - A shade covering for a blind having a plurality of horizontal slats and at least one cord ladder configured to support the slats may generally include a plurality of attachment portions configured to be spaced apart from one another along a first direction of the shade covering. Each attachment portion may define an insertion slit. The shade covering may also include a plurality of shade portions extending between each adjacent pair of attachment portions. Moreover, the insertion slit may be defined through a rear end of each attachment portion such that an insertion end of the insertion slit is open at the rear end. | 2015-12-03 |
20150345215 | APPARATUS FOR RETAINING A BLIND, AND BLIND ASSEMBLY - An apparatus for retaining a blind comprises: a first elongate element for attachment to a supporting structure; a second elongate element attachable to the first elongate element, in order to at least partially form a guide track providing a guide channel in which a part to be guided may be constrained, the first and second elements together at least partially defining the external surfaces of the guide track. The second elongate element is attachable to the first elongate element by displacement of the second element relative to the first element. The direction of displacement may be a direction substantially transverse to the direction of elongation of the first element. | 2015-12-03 |
20150345216 | ADJUSTABLE ROLLER SHADE MOUNTING BRACKET - Presented is a roller shade mounting bracket. The bracket includes a main bracket that includes a top member defining a plurality of elongated openings extending therethrough, where each elongated opening is dimensioned and arranged for receiving a mounting screw and enabling movement along a first axis. The bracket further includes a first sub-bracket moveably coupleable to the main bracket, where the first sub-bracket is moveable along a second axis. The bracket further includes a second sub-bracket moveably coupleable to the first sub-bracket and coupleable to a roller shade motor or a roller shade idler, where the second sub-bracket is moveable along a third axis and rotatable about the first axis. | 2015-12-03 |
20150345217 | METHOD FOR CONTROLLING AN ACTUATOR FOR A BUILDING MOVABLE EQUIPMENT - The present invention relates to a method of controlling an actuator for a mobile item of equipment in building comprising the steps consisting in: deploying a model (M) linking at least one modelling parameter (P) with at least one characteristic physical quantity (C) of the environment or of the operation of the actuator exhibiting a temporal evolution; collecting a set of measurement values (VCm) relating to the at least one characteristic physical quantity (C) of the environment or of the operation of the actuator in the course of a measurement interval (Tm), each measurement value (VCm) being associated with an instant (Tm) of the measurement interval (Tm); determining or correcting at least one value (VP) of the at least one modelling parameter (P) in such a way that a modelled temporal evolution (Ee) defined on the basis of the application of the model (M) of the at least one value (VP) of modelling parameter (P) corresponds to or approaches an observed temporal evolution (Eo) of the characteristic physical quantity (C) determined on the basis of the set of measurement values (VCm); applying or correcting a definition of the operation of the actuator ( | 2015-12-03 |
20150345218 | Pull Cord with Integrated Charging Port - An apparatus in accordance with the invention includes a gearbox assembly configured to electromechanically operate a window covering actuation mechanism. A pull cord is provided to at least one of power the gearbox assembly and charge a battery to power the gearbox assembly. In certain embodiments, manual operation of the pull cord is used to control the gearbox assembly. An electrical conductor and associated electrical connector may be incorporated into the pull cord. A corresponding method is also disclosed herein. | 2015-12-03 |
20150345219 | STEPLADDER - A stepladder provided with a coupling frame in the shape of an equilateral triangle, a front support, a rear right support, a rear left support, and spread stoppers for stopping the front support, the rear right support, and the rear left support from spreading. The front support is rotationally attached to a front shaft of the coupling frame, the rear right fixing member is rotationally attached to a right shaft, and the rear left fixing member is rotationally attached to a left shaft. The rear left support and the rear right support are detachably mounted to the rear left fixing member and the rear right fixing member, respectively. The supports of the stepladder are coupled by the spread stoppers, whereby the three supports are restricted from being displaced forward, to the right rear, and to the left rear. | 2015-12-03 |
20150345220 | SET OF LADDERS, IN PARTICULAR FIRE LADDER AND VEHICLE EQUIPPED THEREWITH - The invention relates to a set of extendable ladders, in particular firefighting ladders, consisting of at least two ladder parts, each part being formed from side rails and rungs running between the side rails, and the uppermost ladder part is formed from at least two ladder sections interconnected by an articulated link, the articulation axis of which runs substantially parallel with the rungs, and when the uppermost ladder part has been fully retracted into the ladder part lying below, the first ladder section and the second ladder section overlap the ladder part lying below. In order to increase flexibility and the range of use of the set of ladders, at least the ladder part lying directly below the uppermost ladder part has a gap which, in the head region of the ladder part between the side rails, is open towards the tip of the ladder and is continuous between the front face and rear face of the ladder part, such that when the articulation axis overlaps the ladder part lying directly below the uppermost ladder part, the second ladder section can be tilted through the gap about the articulation axis. | 2015-12-03 |
20150345221 | DOWNHOLE DRILLING ASSEMBLY HAVING A HYDRAULICALLY ACTUATED CLUTCH AND METHOD FOR USE OF SAME - A downhole drilling assembly includes a drill string having an inner fluid passageway. A fluid motor disposed within the drill string has a rotor operable to rotate relative to a stator in response to a circulating fluid received via the inner fluid passageway. A drive shaft and drill bit are operably associated with and operable to rotate with the rotor. A hydraulically actuated clutch disposed within the drill string has a first configuration, wherein a first clutch assembly is disengaged from a second clutch assembly such that the drive shaft and drill bit rotate relative to the drill string and, a second configuration, wherein the first clutch assembly engages the second clutch assembly responsive to hydraulic pressure generated by rotation of the drill string such that the drive shaft and drill bit rotate with the drill string. | 2015-12-03 |
20150345222 | DIRECTIONAL SYSTEM DRILLING AND METHOD - A directional drilling system consisting of a four-motor drilling head for better steering in directional drilling and vertical/horizontal drilling is developed. The rotational speed of each motor is independently controlled. The use of four motors in coordination with other traditional drilling variables allow precise control of the drilling direction and optimization of the rate of penetration (ROP). The top and right motors rotate in opposite directions to the bottom and left rotors to stabilize the roll rotation of the drilling head. Inclination (pitch) movement is obtained by increasing/decreasing the speed of the top motor while decreasing/increasing the speed of the lower motor. The Azimuth (yaw) movement is obtained similarly using the right and left motors. The drilling power is derived from down hole motors. A drill string transmits the drilling fluid and force on bit. | 2015-12-03 |
20150345223 | METHOD AND SYSTEM FOR DIRECTIONAL DRILLING - A method and system for directionally drilling a wellbore. The method includes measuring an off-bottom rotating torque applied to a drill string in the wellbore. A steerable drilling motor is oriented proximate a bottom of the drill string in a selected direction, and a surface rotational orientation of the drill string is measured. Torque is applied to the drill string at the surface to maintain the surface rotational orientation. The applied torque is automatically increased and decreased by a selected amount related to the measured off-bottom rotating torque. | 2015-12-03 |
20150345224 | Method and System for Laterally Drilling Through a Subterranean Formation - A method for lateral drilling into a subterranean formation whereby a shoe is positioned in a well casing, the shoe defining a passageway extending from an upper opening in the shoe through the shoe to a side opening in the shoe. A rod and casing mill assembly are inserted into the well casing and through the passageway in the shoe until a casing mill end of the casing mill assembly substantially abuts the well casing. The rod and casing mill assembly are rotated until the casing mill end substantially forms a perforation in the well casing. An internally rotating nozzle is attached to an end of a hose and is pushed through the passageway and the perforation into the subterranean formation, and fluid is ejected from tangential jets into the subterranean formation for impinging upon and eroding the subterranean formation. | 2015-12-03 |
20150345225 | MULTIMODAL ROCK DISINTEGRATION BY THERMAL EFFECT AND SYSTEM FOR PERFORMING THE METHOD - Multimodal rock disintegration by non-contact thermal effect, spallation, melting, evaporation of a rock through a movable electric arc, arc thermal expansion and subsequent shock pressure wave allows in comparison with currently available and known technologies to drill into the rock by direct action of the electric arc and heat flows generated by the electric arc. The principle of the disintegration is based on the electric arc generation, force action to it and pressing it towards the rock intended to disintegrate, which causes heating of the rock so that a phase change and thermal disintegration of the rock occurs. Subsequently, the crushed rock is transported by a fluid streams, which are involved in stabilizing and guiding of the electric arc, from the area between the rock and the electric arc, which is the area of the rock disintegration. | 2015-12-03 |
20150345226 | SYMMETRICAL HAR SEAL - A downhole seal system for roller cone drill bits includes a seal gland having a width larger than it depth. In one implementation, the seal gland includes a protrusion along its base on which a seal element seats. The seal element is a single, annular seal element with a recess formed therein so as to define two lobes. The seal element seats in the gland so that the recess engages the protrusion. The lobes function as separate seal elements, although they are a single unitary seal element disposed in a single gland. | 2015-12-03 |
20150345227 | DRILL BIT FOR A DOWN-THE-HOLE DRILL HAMMER HAVING NONCONCENTRICALLY OR SPIRALLY ARRANGED CUTTING INSERTS - A drill bit for a down-the-hole drill hammer is provided that includes a head and a shank extending from the head. The head includes a plurality of non-concentrically or spirally arranged cutting members about its working face. The non-concentric or spiral arrangement of the cutting members in the drill bit and their overlapping cutting paths during rotation of the drill bit reduces the presence of concentric grooves or valleys being cut into the earthen terrain impacted by the bit thereby resulting in more complete cutting coverage. | 2015-12-03 |
20150345228 | Drill Bit - A drill bit comprises at least one blade, comprising a plurality of cutting elements in the form of polycrystalline diamond cutters disposed on a leading edge of the blade, at least one diamond impregnated cutting region, disposed behind the leading edge of the blade, and wherein at least one of the cutters disposed on the leading, edge is an off-tip cutting element, arranged so that it does not engage with the formation during drilling until bit wear has taken place. | 2015-12-03 |
20150345229 | METHODS OF FORMING POLYCRYSTALLINE DIAMOND AND CUTTING ELEMENTS AND TOOLS COMPRISING POLYCRYSTALLINE DIAMOND - A method of forming polycrystalline diamond includes encapsulating diamond particles, carbon monoxide, and carbon dioxide in a container. The encapsulated diamond particles, carbon monoxide, and carbon dioxide are subjected to a pressure of at least 4.5 GPa and a temperature of at least 1400° C. to form inter-granular bonds between the diamond particles. A cutting element includes polycrystalline diamond material comprising inter-bonded grains of diamond. The polycrystalline diamond material is substantially free of graphitic carbon and metallic compounds. The polycrystalline diamond material exhibits a density of at least about 3.49 g/cm | 2015-12-03 |
20150345230 | METHODS OF FORMING AND REPAIRING EARTH-BORING TOOLS INCLUDING REPLACEABLE CUTTING STRUCTURES - Methods of forming an earth-boring tool may involve attaching one or more cutting elements to a replaceable cutting structure and positioning the replaceable cutting structure proximate a region of a body of an earth-boring tool that is susceptible to at least one of localized wear and localized impact damage. The replaceable cutting structure may be to the body. Methods of repairing an earth-boring tool may involve bringing a replaceable cutting structure proximate at least one portion of a body of an earth-boring tool exhibiting at least one of localized wear and localized impact damage. The replaceable cutting structure may be attached to the earth-boring tool at the at least one portion. | 2015-12-03 |
20150345231 | SYSTEMS AND METHODS FOR RELEASING A TOOL STRING - Disclosed is a release tool used to separate portions of a tool string. One release tool includes a main body, a collet retainer coupled to the main body and having a collet assembly arranged therein, the collet assembly being operatively coupled to a lower sub, a support piston releasably coupled to a separation nut and engaging the collet assembly such that the lower sub is prevented from removal from the collet assembly, and a trigger mechanism configured to send a command signal to the separation nut whereupon the separation nut releases the support piston such that it is able to be moved and the lower sub is thereby able to be removed from the collet assembly. | 2015-12-03 |
20150345232 | Anchor System for Imparting a Rotational Motion in a Cutting Apparatus - Systems and methods usable in conduit cutting operations are disclosed. Specifically, an anchor assembly is configured to be attached to a cutting apparatus and to equalize the upward and downward forces on the cutting apparatus during performance of the cutting operation. In addition, the anchor assembly is configured to impart a rotational motion in the cutting apparatus to produce a clean and complete horizontal cut of the conduit at a desired location. | 2015-12-03 |
20150345233 | Riser Stringer Hang-Off Assembly - A hang-off assembly for supporting a riser string from an off-shore drilling rig. The hang-off assembly includes a housing with a passage through the housing and an open section allowing access to the entire length of the passage from outside the housing. The assembly also includes a gate member movable relative to the housing from an open position to a closed position, the gate member preventing access to the passage through the open section when in the closed position. A motor moves the gate member between the open and closed positions. An adapter attachable to the riser string includes a profile landable in the housing to support the riser string when connected to the adapter. | 2015-12-03 |
20150345234 | Apparatus for Handling Tubulars - A tubular handling tool is taught for use as an elevator, comprising one or more slips movably retained by one or more upper and lower rings, wherein the upper and lower rings provide constraint against radial expansion forces. A frame is taught for an elevator comprising one or more upper and lower rings and one or more removable means for connecting the upper and lower rings and attaching the frame to a top drive. A tubular handling tool is taught for use as a top mount spider comprising one or more slips movably retained by one or more upper and lower rings, wherein the upper and lower rings provide constraint against radial expansion forces. A tubular handling tool is taught for use as a flush mount spider comprising one or more slips movably retained on an upper ring and a lower ring. A slip is taught comprising a movable sliphead. | 2015-12-03 |
20150345235 | A WELL INTERVENTION CABLE BENDING RESTRICTION FOR A RIGID RESILIENT ROD-SHAPED INTERVENTION CABLE - A bending restrictor for a rigid but resilient rod-shaped intervention cable includes a series of pipe sections and articulation sleeves. Each pipe section includes a straight pipe piece with a spherical sector in either end. Each articulation sleeve includes two axially oppositely directed spherical-sector seats for holding about each pipe's spherical sector. The spherical sector seats are arranged in either ends of a central axial passage for the intervention cable. Two guide sheaves each with its sheave groove reside in the articulation sleeve's axial plan is laterally displaced relative to the middle of the axial passage so as for enveloping the axial passage for the intervention cable. The articulation sleeve is provided with two opposite axially directed and flattened pivot funnels, and each pivot funnel is provided with its narrower end in adjacent to each its spherical-sector seat. Each pivot funnel has, in the axial plane a funnel shape which allows the pipe section's straight pipe piece to pivot about the spherical sector seat in the axial plane, and wherein the pivot funnel's funnel shape is flattened in another axial plane perpendicular to the first axial plane, so as for the pipe sections to be able to pivot only in the first axial plane. The articulation sleeve is splittable in the plane into two articulation sleeve half housings. | 2015-12-03 |
20150345236 | Misalignment Mitigation in a Rotating Control Device - The exemplary embodiments relate to misalignment correction devices and methods for mitigating misalignment of a piece of oilfield equipment in or proximate an RCD. A rounded shoulder appears on a first surface within or proximate the RCD, and a socket profile appears on a second surface within or proximate the RCD. The second surface is configured to abut the rounded shoulder. The rounded shoulder is configured to rotate within the socket profile. Further, a floating joint may be implemented into or proximate the RCD and combined with the foregoing rotation mitigation features. | 2015-12-03 |
20150345237 | Rotating Control Device Radial Seal Protection - The exemplary embodiments relate to apparatus and methods for increasing the longevity of an RCD at a wellbore, including a bearing assembly configured for operating in the RCD. The bearing assembly is configured for reducing pressure proximate the bearing assembly including reducing pressure in a radial seal. Top and bottom seals are mounted against a wear sleeve adjacent to an inner member housed within the bearing assembly. The wear sleeve is configured to be sealed by the top seal and the bottom seal as the inner member rotates in the RCD. A pressure reduction system mounted with the RCD is configured to apply pressure via a wellbore pressure between the top seal and the bottom seal, which is lower relative to a pressure above the top seal, and which is higher relative to a pressure below the bottom seal. | 2015-12-03 |
20150345238 | METHOD AND APPARATUS FOR HANDLING OIL AND GAS WELL DRILLING FLUIDS - A fluids management apparatus is disclosed herein that enables management of multiple volumes of different fluids when drilling and/or producing oil and/or gas with an oil and gas well drilling platform. The apparatus includes a structural, transportable frame that has upper and lower reservoir sections, each with a plurality of tanks for holding fluid. The upper reservoir section is easily lifted and transported, such as by crane. A docking station on the lower reservoir section is receptive of the upper reservoir section. A piping system enables a selected fluid volume contained in a tank of the upper reservoir section to be selectively transmitted to a selected tank of the lower reservoir section. The lower reservoir section has its own piping system that enables a user to withdraw fluid from any selected one of its tanks. | 2015-12-03 |
20150345239 | ELASTIC PIPE CONTROL AND COMPENSATION WITH MANAGED PRESSURE DRILLING - A method of regulating downhole pressure using managed pressure drilling may include calculating an elasticity of a drill string during a drilling operation using a torque and drag model included in a managed pressure drilling (MPD) control system and calculating a surge pressure and a swab pressure acting on the drill string during the drilling operation using a hydraulics model included in the MPD control system. The surge and swab pressures may be based on movement of the drill string and in accordance with the elasticity of the drill string. The method may further include determining a set point pressure using a real-time hydraulics model and the torque and drag model, and operating a MPD choke system based on the set point pressure to regulate a predetermined downhole pressure at a predetermined location in a wellbore. | 2015-12-03 |
20150345240 | Drilling Apparatus Including a Fluid Bypass Device and Methods of Using Same - A method and apparatus for drilling a wellbore is disclosed. The wellbore is drilled with a drill string that includes a bypass device having a fluid passage therethrough by supplying a fluid through the bypass device at a first flow rate, wherein the fluid circulates to a surface location via an annulus between the drill string and the wellbore. The flow rate of the fluid is altered to a second flow rate. A time period is defined and a mechanical motion of the bypass device is initiated. A parameter related to the mechanical motion of the bypass device and a parameter related to flow rate are detected. The bypass device is activated to divert a portion of the fluid to the annulus when the parameter related to mechanical motion is detected and the parameter related to flow rate is present during the defined time period. | 2015-12-03 |
20150345241 | Whipstock Assembly having Anchor and Eccentric Packer - A whipstock assembly has a whip, a packer, and an anchor. The packer connects between the whip and the anchor and sets after the anchor is set. The anchor can be set mechanically or hydraulically. To communicate hydraulic pressure to the hydraulically-set anchor, the packer can have an internal bypass for communicating fluid or for passing a hydraulic line from the whip to the anchor. The packer is set mechanically with set down weight applied from the whip via a setting tool or the like. The packer sets eccentrically in the casing and acts as a fulcrum to push the tip of the whip against the inside of the casing. | 2015-12-03 |
20150345242 | Hanger Running Tool - A hanger running tool for a hanger includes an outer sleeve and an inner driving sleeve. The outer sleeve is configured to engage and couple the hanger running tool to the hanger, and the inner driving sleeve is selectively axially movable within the outer sleeve for engagement with the hanger to prevent relative rotation between the hanger running tool and the hanger. | 2015-12-03 |
20150345243 | Fluid Line Exit Block With Dual Metal-to-Metal Sealing - A termination block assembly for fluidly coupling a fluid line at a hydrocarbon production device includes a fluid line block with an inner surface selectively mated to a corresponding surface of the hydrocarbon production device. The fluid line block has a protruding member extending from the inner surface. A primary seal is located at an end of the protruding member. The primary seal has an inner diameter selectively circumscribing the fluid line extending from the hydrocarbon production device, and an outer diameter selectively engaging a sidewall passage surface of the hydrocarbon production device and sealing between the fluid line block and the hydrocarbon production device. A secondary seal circumscribes the protruding member, engaging both the inner surface of the fluid line block and the corresponding surface of the hydrocarbon production device and sealing between the fluid line block and the hydrocarbon production device. | 2015-12-03 |
20150345244 | Removable Treating Plug with Run In Protected Agglomerated Granular Sealing Element - A fully disintegrating plug has a passage therethrough and a ball seat at an upper end. The seal material that comprises plastic nuggets, sand and a grease binder is initially disposed behind a protective sleeve. A wireline setting tool creates relative movement between a plunger and a mandrel body that has a ramp surface adjacent the outlet of the protective sleeve. The sleeve outlet is closed for running in but plunger movement pushes the seal material so as to displace the closure at the sleeve outlet with the seal material that is forced up the mandrel ramp surface and against the surrounding tubular. After an object is landed on the mandrel seat and the treating is concluded, the plug components are caused to disintegrate or otherwise fail for complete removal. Multiple plugs are contemplated for fracturing or other treating applications. | 2015-12-03 |
20150345245 | Shaped Charge Casing Cutter - A shaped charge casing cutter is constructed with the cutter explosive formed into radial section modules aligned in a toroidal cavity between a pair of housing plates. The center sections of the housing plates are contiguously aligned with opposite parallel surfaces of a center disc. The housing plates comprise annular edges or rims, and the rims can be offset from respective center disc planes in opposite directions from each other to form a toroidal cavity. The toroidal cavity is enclosed by a circumferential belt secured to said housing plate rims. V-grooved shaped charge explosive in the form of multiple pi sections is distributed about the cavity to intimately contact a pair of frusto-conical liners. Assembly tolerance space between the pi sections is filled by dense paper card stock. | 2015-12-03 |
20150345246 | Wellhead Component with Seal Surface and Method of Forming the Seal - A subset wellhead component has a metal seal surface having voids. The voids are initially filled with an elastomeric substrate having hollow beads. When lowered into the subsea assembly, the beads have sufficient strength to resist collapsing under a hydrostatic pressure of liquid within the subsea wellhead assembly to prevent shrinking of a volume of the substrate. Exerting a setting force on the metal seal surface to form the sealing engagement causes the beads to collapse and reduce the volume of the substrate within the voids. The seal surface may be folds of a bellows-type nose ring of a seal assembly. The seal surface may alternately be wickers formed in the bore of the wellhead housing. | 2015-12-03 |
20150345247 | Hydraulic Fracturing Ball Sealers - A hydraulic fracturing ball sealer used in fracturing of shale formations. A preferred embodiment is constructed of a generally spherical core and a pair of hemispherical shells positioned about the core. The shells are secured to each other along an equatorial seam. The multilayer frac-ball provides a strong but machinable structure with a pliable outer surface that is corrosion resistant, has a specific gravity that allows it to float in the fracturing fluid, and is relatively easy and inexpensive to manufacture. The frac-ball of the present invention is a two piece metal and polymer design. A two-part embodiment comprises a polymer core with a metal case or shell. A layer of epoxy resin may be used to secure the shell to the core. Alternate embodiments include multiple layers of different materials, generally arranged concentrically within the spherical shape. The surface of the frac-ball may be smooth, scored, or serrated. | 2015-12-03 |
20150345248 | APPARATUS FOR USE IN WELL ABANDONMENT | 2015-12-03 |
20150345249 | Morphable Apparatus - Apparatus and method for securing and sealing a tubular portion to another tubular to provide a liner hanger in oil and gas wells. At the top of the liner string, a sleeve is arranged on the liner to create a chamber therebetween. A port provides fluid access through the liner to the chamber. When fluid is introduced into the chamber the sleeve is morphed to secure it to the cemented casing. A lower fluid pressure is required to morph the sleeve than if the liner itself was to be morphed. Embodiments are provided for securing and sealing arrangements to increase the metal to metal seal and the load capability between the liner string and casing. | 2015-12-03 |
20150345250 | INTERVENTION TOOL FOR DELIVERING SELF-ASSEMBLING REPAIR FLUID - Certain aspects are directed to devices for use in a wellbore in a sub-terranean formation. There is provided an intervention tool that may be used to set a self-assembling remedial screen, patch, plug, create a remedial isolation zone, conduct remedial securement, or otherwise provide a remedial fix to one or more components of the completion in a downhole configuration. The intervention tool may have a tool shaft, at least two magnets positioned with respect to the tool shaft, a carrier fluid containing magnetically responsive particles, one or more injection ports on the tool shaft, and a fluid deployment system to cause deployment of the carrier fluid out of the tool shaft through the one or more injection ports. | 2015-12-03 |
20150345251 | MECHANICAL SHAFT COUPLING FOR FLUID SYSTEM CONNECTIONS - A fluid control system includes a choke valve having a first connector shaft an actuator haying a second connector shaft; a collar disposed around the first and second connector shafts; and a spring disposed on the first connector shaft. The collar may have an internal taper and a plurality of engagement pins. | 2015-12-03 |
20150345252 | STAGE TOOL WITH LOWER TUBING ISOLATION - A stage tool includes an isolation mechanism for isolating the lower bore of a completion string. The isolation mechanism is initially in a deactivated configuration until sufficient hydraulic pressure is applied, at which time, the isolating mechanism is activated to isolate the lower bore from cement ingress. Concurrently or subsequently, a stage tool may be opened to facilitate cementing of an annulus between the completion string and the wellbore. After cementing, the isolation mechanism, or portions thereof, may be drilled out to re-establish flow through the stage tool. | 2015-12-03 |
20150345253 | FLOW CONTROL DOWNHOLE TOOL - A downhole tool includes a housing and a mandrel glidingly arranged within the housing, wherein the mandrel is formed as a piston. The flange is acting on a spring arranged around the mandrel. In a first position of the mandrel, a fluid flow can run 100% through the tool via a first nozzle at a first end of the housing, the inside of the mandrel and a second nozzle at a second end of the housing. At a predetermined flow rate and with the help of a passage arranged in the housing wall and connecting the first side of the tool with the space or ring room on the non-spring side of the mandrel and a side port in the mandrel on its spring side, the mandrel will be moved towards the second nozzle due to sufficient force acting on a flange of the mandrel thus overcoming the spring resistance. | 2015-12-03 |
20150345254 | DOWNHOLE LOGGING TOOL COOLING DEVICE - A downhole tool cooling device ( | 2015-12-03 |
20150345255 | DISSOLVABLE SIEVE, PARTICULATE TOLERANT SYSTEM AND METHOD OF PROTECTING A TOOL FROM PARTICULATE - A dissolvable sieve includes a body that is permeable to fluid flow therethrough constructed of a material configured to dissolve in a target environment. | 2015-12-03 |
20150345256 | DOWNHOLE ACTUATION APPARATUS AND ASSOCIATED METHODS - A downhole actuating apparatus for actuating downhole. The apparatus is actuatable at the downhole location at, upon or during one or more particular cycle/s selectable from a sequence of cycles according to a predetermined selection. The downhole actuation comprises the release of at least one flowable object from the downhole location. The apparatus releases the at least one flowable object from the downhole location at, upon or during the particular cycle selectable from the sequence of cycles. | 2015-12-03 |
20150345257 | SPRING CLIPS FOR TUBULAR CONNECTION - A jumper tube is connected to a shunt tube of a well screen assembly by positioning the jumper tube end to end, adjacent with the shunt tube. A spring clip is then flexed over a profile of a coupling and allowed to snap into gripping engagement of the coupling, thereby retaining the jumper tube relative to the first screen assembly. | 2015-12-03 |
20150345258 | MODULAR ASSEMBLY FOR PROCESSING A FLOWBACK COMPOSITION STREAM AND METHODS OF PROCESSING THE SAME - A method for processing a flowback composition stream from a well head is provided. The flowback composition stream has a first flow rate and a first pressure. Method also includes controlling the first flow rate to a second flow rate by regulating the flowback composition stream to a second pressure. The method also includes separating the flowback composition stream into a first gas stream and a condensed stream The method includes discharging the condensed stream to a degasser and degassing a carbon dioxide rich gas from the condensed stream. The method also includes mixing the carbon dioxide rich gas stream with the first gas stream to produce a second gas stream. The method includes controlling the third flow rate of the second gas stream by regulating the third pressure of the second gas stream to a fourth pressure that is different than the third pressure. | 2015-12-03 |
20150345259 | METHOD FOR CARBON DIOXIDE SEQUESTRATION - A method for geo-sequestration of a carbon dioxide includes selection of a target water-laden geological formation with low-permeability interbeds, providing an injection well into the formation and injecting supercritical carbon dioxide (SC—CO | 2015-12-03 |
20150345260 | APPARATUS FOR POWER GENERATION - A power generator for use in a bore, the power generator comprising at least one drivable member; and at least one generation apparatus; the generation apparatus comprising at least one generator magnet for producing a magnetic field; and at least one electrically conductive member located or locatable within the magnetic field; wherein the drivable member is drivable by fluid flowing in the bore so as to produce relative motion of the at least one magnet and the at least one electrically conductive member in order to induce a current in the at least one electrically conductive member. | 2015-12-03 |
20150345261 | HIGH-SPEED CAMERA TO MONITOR SURFACE DRILLING DYNAMICS AND PROVIDE OPTICAL DATA LINK FOR RECEIVING DOWNHOLE DATA - An apparatus for drilling a borehole into the earth includes a drill string configured to drill the borehole and a high-speed camera configured to capture a series of images of the drill tubular at a speed high enough to image information of interest while the drill tubular is in operation. The apparatus further includes a processor configured to receive and process the series of images to provide the information of interest. | 2015-12-03 |
20150345262 | AUTOMATED DRILLNG OPTIMIZATION - A method implemented by a processor for drilling a borehole includes: inputting drilling parameters used to drill one or more offset boreholes, rate of penetration for the one or more offset boreholes, and one or more lithologies for the one or more offset boreholes; identifying those drilling parameters that correspond to a rate of penetration (ROP) that meets or exceeds a selected ROP threshold for each input lithology; correlating a borehole plan comprising a borehole path to be drilled and one or more assumed lithologies as a function of depth to the one or more lithologies of the one or more offset boreholes; sending the identified drilling parameters to a drill rig controller for each of the assumed lithologies in the borehole plan; and drilling the borehole with the drill rig using the identified drilling parameters for each of the one or more assumed lithologies in the borehole plan. | 2015-12-03 |
20150345263 | STABILIZING CONTAMINANTS IN DRILL CUTTINGS - Drill cuttings obtained from oil and gas wells contain contaminants such as heavy metals and volatile organic compounds (VOCs). Such contaminants complicate the disposal of the drill cuttings. The drill cuttings can be reused in load bearing applications such as road subgrades and drill site pads by combining the drill cuttings with soil and a soil stabilizer. The soil stabilizer includes sulfuric acid and citrus stripper oil. Once the soil stabilizer is added to the soil-cuttings mixture, the mixture is compacted to reduce the voids. The soil stabilizer liquefies minerals in the soil-cuttings mixture which liquids fill in any remaining voids. The result is a consolidated treated soil that greatly reduces the leaching of the contaminants therefrom. | 2015-12-03 |
20150345264 | MULTILATERAL SAND MANAGEMENT SYSTEM AND METHOD - A multilateral sand management system including a multilateral junction device disposed at a multilateral junction area of a primary borehole and a lateral borehole. The multilateral junction device including a lateral leg disposed within an upholemost portion of the lateral borehole. An electric submersible pump disposed within the lateral leg of the multilateral junction device. The pump when operating placing the multilateral junction area under a positive pressure compared to a pressure in the lateral borehole and in the primary borehole downhole of the multilateral junction area. A method of controlling sand at a multilateral junction area of a primary borehole and a lateral borehole. | 2015-12-03 |
20150345265 | UP-THRUSTING FLUID SYSTEM - A submersible fluid system for operating submersed in a body of water includes a fluid-end housing having an upper end and a lower end. A fluid rotor is disposed to rotate in the fluid-end housing and to receive and interact with a process fluid flowing from an inlet of the fluid-end housing to an outlet of the fluid-end housing. The fluid rotor is configured to thrust upwards toward the upper end when rotating. A bearing near the lower end of the fluid-end housing has an upward-facing bearing surface coupled to the fluid rotor and a downward-facing bearing surface coupled to the fluid housing, the bearing surfaces cooperate to support the upward thrust of the fluid rotor. | 2015-12-03 |
20150345266 | METHOD AND APPARATUS FOR TREATING A SUBTERRANEAN REGION - A method for treating a subterranean region includes running a tubular string including a plurality of sealed fluid ports distributed along its length through an upper lined wellbore section and into a lower drilled bore section which intercepts a subterranean region, wherein the lower drilled bore section includes a first fluid. A second fluid is delivered through one of the tubular string and an annulus defined between the tubular string and a wall of the bore to displace the first fluid from the annulus, wherein fluid communication between the tubular member and the annulus is provided via a displacement port in a lower end region of the tubular string. At least one of the sealed fluid ports may subsequently be opened and a treating fluid is delivered through the tubular string and into the annulus via the at least one opened fluid port to treat the subterranean region. | 2015-12-03 |
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. | 2015-12-03 |
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. | 2015-12-03 |
20150345269 | PROCESS FOR CONTINUOUSLY SUPPLYING A FRACTURING FLUID - The present invention relates to a process of supplying a proppant-containing fracturing fluid to a wellhead, wherein the proppant-containing fracturing fluid can be continuously supplied during the fracture treatment. | 2015-12-03 |
20150345270 | THERMALLY INDUCED EXPANSION DRIVE IN HEAVY OIL RESERVOIRS - Aspects of the disclosure involve the production of hydrocarbons from segregated reservoir compartments. Thermal recovery processes within one compartment are used so as to provide thermal energy to a second, adjoining but distinct compartment, increasing fluid pressures within the second compartment to drive hydrocarbons from the second compartment to the first compartment, so that hydrocarbons originating from the second compartment may be produced from the first compartment. | 2015-12-03 |
20150345271 | APPARATUS, SYSTEM, AND METHOD FOR CONTROLLING COMBUSTION GAS OUTPUT IN DIRECT STEAM GENERATION FOR OIL RECOVERY - An apparatus, system, and method for controlling combustion gas output in direct steam generation for oil recovery. A direct combustion steam generator burns a fuel and an oxygen-containing gas mixture to produce combustion products including steam, CO | 2015-12-03 |
20150345272 | Remote Mobile Operation and Diagnostic Center for Frac Services - A method for remotely controlling services to a well during hydraulic fracturing operations includes the steps of (a) generating a high pressure fluid and pumping the high pressure fluid into a subterranean geologic formation through a wellbore of a first well, the high pressure fluid being provided at a sufficient pressure to fracture the subterranean geologic formation: (b) performing a service on a second well, the second well being located within a pressure zone defined around the first well and the second well; and (c) controlling the performance of the service from a remote operations hub. Step (a) and step (b) are performed simultaneously and step (c) is performed from the remote operations hub located outside of the pressure zone. | 2015-12-03 |
20150345273 | METHODS AND PROCESSES TO RECYCLE BASE OIL FLUIDS FROM SPENT INVERT EMULSION DRILLING FLUIDS - Methods and processes for recycling base oils from spent invert emulsion drilling fluids may include frictionally heating a spent drilling fluid that comprises an invert emulsion and solids, wherein the solids are at about 50% or less by volume of the spent drilling fluid; and simultaneously evaporating oil and water from the invert emulsion at a temperature lower than an atmospheric boiling point for the oil. | 2015-12-03 |
20150345274 | Subsea Processing of Well Fluids - A towable unit for subsea processing of well fluids comprises a pipeline bundle extending between, and capable of acting in tension between, a first towhead at an upstream end of the bundle and a second towhead at a downstream end of the bundle. At least one of the towheads has an on-board processing facility for processing the well fluids, which facility effects at least separation of water phases that are present in the well fluids. | 2015-12-03 |
20150345275 | Subsea Processing of Well Fluids - A wax control element for subsea processing of well fluids in a wellstream comprises a bundle of flowlines within an elongate tensile structure. That structure defines inlet and outlet ends and has cooling and heating provisions that act on the flowlines, in use, to promote deposition of wax in the flowlines and subsequent entrainment of wax in the wellstream. | 2015-12-03 |
20150345276 | Apparatus, System, And Methods For Downhole Debris Collection - An apparatus for debris removal. The apparatus includes a debris storage housing. The debris storage housing has a velocity tube located therein. The velocity tube has a hole formed therethrough. A diverter is located on the velocity tube adjacent the hole. | 2015-12-03 |
20150345277 | OIL RECOVERY PROCESS INCLUDING ENHANCED SOFTENING OF PRODUCED WATER - A process is provided for treating produced water resulting from an oil recovery operation. Produced water is subjected to a softening process wherein a caustic or other softening reagent is added to the produced water to increase the pH of the produced water. Downstream of softening, there is provided an evaporator for evaporating at least a portion of the produced water and producing steam and a concentrated brine. At least a portion of the concentrated brine is recycled upstream of the evaporator and mixed with the produced water and the softening reagent to enhance the softening process. | 2015-12-03 |
20150345278 | OIL RECOVERY PROCESS INCLUDING A HIGH SOLIDS CRYSTALLIZER FOR TREATING EVAPORATOR BLOWDOWN - An oil recovery process is provided where an oil-water mixture is recovered from an oil-bearing formation. Oil is separated from the oil-water mixture to yield produced water. The produced water is typically subjected to a pre-treatment process. After pre-treatment, the produced water is directed to an evaporator that evaporates at least some of the produced water and produces steam and an evaporator blowdown. The evaporator blowdown is directed to a dual stage crystallizer that concentrates the evaporator blowdown. | 2015-12-03 |
20150345279 | STORING CARBON DIOXIDE AND PRODUCING METHANE AND GEOTHERMAL ENERGY FROM DEEP SALINE AQUIFIERS - A novel idea involving the coupling of CO | 2015-12-03 |
20150345280 | POLISHED ROD-MOUNTED PUMP CONTROL APPARATUS - A method and apparatus for controlling a pump configured to pump liquid out of a well is described. A compact sensor package including a force sensor, position sensor, PLC, and transmitter may be disposed at a single location of the pump and communicate with a pump controller. | 2015-12-03 |
20150345281 | MULTI-LEVEL WELLSITE MONITORING SYSTEM AND METHOD OF USING SAME - A system for monitoring wellsite equipment at a wellsite is disclosed. The system includes a plurality of client devices. Each client device has radios with programmable channels. The client devices include a source client device, a base station client device, and a repeater client device. The source client device is mounted to the wellsite equipment and includes a sensor to measure wellsite parameters of the wellsite equipment. The base station client device is coupled to the surface unit for communication therewith. The repeater client device is positioned at the wellsite to communicate with the source client device and the base station client device. | 2015-12-03 |
20150345282 | MOUNTING AND COMPONENT HOLDER APPARATUSES AND ASSEMBLIES FOR HOLDING RIGID COMPONENTS - A component mounting apparatus for holding a rigid component in a downhole bore or a downhole collar based application includes a first body including first and second parallel spaced apart component holders disposed in a first common plane and a first support connecting the component holders together. The first and second parallel spaced apart component holders are operable to receive and grip a rigid component between the first and second parallel spaced apart component holders. Various component mounting assemblies and configurations may be realized using the component mounting apparatus described. The component mounting apparatus and various mounting assemblies may be used to mount a printed circuit board in a cylindrical enclosure or to bular housing, for example. | 2015-12-03 |
20150345283 | BACK UP DIRECTIONAL AND INCLINATION SENSORS AND METHOD OF OPERATING SAME - The embodiments described herein generally relate to a method and apparatus for providing a back up system of Directional and Inclination (D&I) information to be gathered and transmitted in addition to primary D&I sensors currently employed in industry. A downhole probe assembly including primary sensors, back up sensors and a controller is disclosed. The primary sensors comprise primary accelerometers and primary magnetometers configured to gather information relating to each of orthogonal axes X, Y and Z. The back up sensors comprise back up accelerometers configured to gather information relating to each of orthogonal axes X, Y and Z, the back up accelerometers being solid state accelerometers. The controller is in electrical communication with the primary sensors and the back up sensors. The controller is configured to receive and process information from the primary sensors and the back up sensors so that information from the back up accelerometers can be used when one or more of the primary accelerometers fail, which may allow drilling operations to continue despite such failure. | 2015-12-03 |
20150345284 | ADVANCED STEERING TOOL SYSTEM, METHOD AND APPARATUS - A steering tool is movable by a drill string to form an underground bore along an intended path. A sensing arrangement of the steering tool detects its pitch and yaw orientations at a series of spaced apart positions along the bore, each position is characterized by a measured extension of the drill string. The steering tool further includes a receiver. At least one marker is positioned proximate to the intended path, for transmitting a rotating dipole field to expose a portion of the intended path to the field for reception by the receiver. The detected pitch orientation, the detected yaw orientation and the measured extension of the drill string are used in conjunction with magnetic information from the receiver to locate the steering tool. The steering tool may automatically use the magnetic information when it is available. A customized overall position determination accuracy can be provided along the intended path. | 2015-12-03 |
20150345285 | EXPLOSION-PROOF MAGNETIC FLUX LEAKAGE INSPECTION APPARATUS FOR WELL TUBING - Explosion-proof magnetic flux leakage inspection apparatus for well tubing includes a hermetically sealed interior chamber with an inner wall assembly that forms and surrounds a central channel in a manner that separates the central channel from the hermetically sealed interior chamber by the inner wall assembly. The central channel has an open top and an open bottom to accommodate passage of the well tubing through the central channel. An electromagnetic coil, magnetic flux leakage detector assembly, and a shallow reading detector assembly are positioned in the hermetically sealed interior chamber around the inner wall assembly. | 2015-12-03 |
20150345286 | FLUID PRESSURE PULSE GENERATING APPARATUS WITH PRIMARY SEAL ASSEMBLY, BACK UP SEAL ASSEMBLY AND PRESSURE COMPENSATION DEVICE AND METHOD OF OPERATING SAME - The embodiments described herein generally relate to a fluid pressure pulse generating apparatus with a primary seal assembly, back up seal assembly and pressure compensation device. The pressure compensation device comprises a membrane support and a longitudinally extending membrane system. The membrane support has a longitudinally extending bore therethrough for receiving a drive-shaft of the fluid pressure pulse generating apparatus. The longitudinally extending membrane system comprising a longitudinally extending outer membrane sleeve and a longitudinally extending inner membrane sleeve with the inner membrane sleeve positioned inside the outer membrane sleeve. The membrane system is sealed to the membrane support to allow flexing of the membrane system in response to fluid pressure on either an inner longitudinal surface of the membrane system or an outer longitudinal surface of the membrane system and to prevent fluid on the inner longitudinal surface mixing with fluid on the outer longitudinal surface. | 2015-12-03 |
20150345287 | DOWNHOLE MWD SIGNAL ENHANCEMENT, TRACKING, AND DECODING - A method for transmitting data from a MWD system at the BHA of a drill string may include transmitting the data in a MWD signal from the MWD system. The MWD signal may be modulated at a position closer to the surface onto a mud pulse modulated signal. The mud pulse modulated signal may be generated by a downhole friction reducing device. The downhole friction reducing device may include a mud motor. The mud motor may create pressure pulses based on its speed of rotation. The downhole friction reducing device may include a modulating valve. The modulating valve may be electromechanically or mechanically operated. The modulated signal may be detected at the surface by a receiver using one or more pressure or flow sensors. The receiver may use one or more harmonics of the modulated signal to receive the data. | 2015-12-03 |
20150345288 | FLUID PRESSURE PULSE GENERATING APPARATUS WITH PRIMARY SEAL ASSEMBLY, BACK UP SEAL ASSEMBLY AND PRESSURE COMPENSATION DEVICE AND METHOD OF OPERATING SAME - The embodiments described herein generally relate to a fluid pressure pulse generating apparatus with a primary seal assembly, back up seal assembly and pressure compensation device. The pressure compensation device comprises a membrane support and a longitudinally extending membrane system. The membrane support has a longitudinally extending bore therethrough for receiving a driveshaft of the fluid pressure pulse generating apparatus. The longitudinally extending membrane system comprising a longitudinally extending outer membrane sleeve and a longitudinally extending inner membrane sleeve with the inner membrane sleeve positioned inside the outer membrane sleeve. The membrane system is sealed to the membrane support to allow flexing of the membrane system in response to fluid pressure on either an inner longitudinal surface of the membrane system or an outer longitudinal surface of the membrane system and to prevent fluid on the inner longitudinal surface mixing with fluid on the outer longitudinal surface. | 2015-12-03 |
20150345289 | MICROFLUIDIC OSCILLATING TUBE DENSITOMETER FOR DOWNHOLE APPLICATIONS - Devices, methods and systems for determining one or more properties of at least one fluid sample. A tube configured to receive the at least one fluid sample wherein the tube is placed in a pressure housing. Further, an excitation source configured to generate vibration of the tube whereby a circulation of an electrical current along a portion of the tube is subjected to at least one magnetic field produced by at least one magnet. Further still, at least one vibration sensor that converts vibrations of the tube into a measurement signal. Finally, a processor that receives the measurement signal determines a resonant frequency from the measurement signal using a frequency measuring device to determine a property of the one or more properties of the at least one sample fluid. | 2015-12-03 |
20150345290 | SURFACE MINING TOOTH RETENTION - A reducing element retention clip is disclosed herein. The reducing element retention clip includes a handle and two flexible legs extending from the handle. The two flexible legs are configured to flex apart to receive a shaft of the reducing element. The handle aligns along a first plane and the two flexible legs align along a second plane. The first and second planes are angled relative to one another. | 2015-12-03 |
20150345291 | Tool Holder - The invention relates to a bit holder for a road milling machine or the like, having a base part on which a bit shank and a projection are shaped, the projection comprising a bit receptacle, and the bit receptacle being constituted from a socket-shaped insert made of hard material. With a bit holder of this kind, good rotational behavior of the bit can be assisted and stable bracing thereof can be guaranteed, with little parts outlay, if provision is made that the bit receptacle is embodied as a stepped bore that comprises a first and a second diameter region, the first diameter region having a larger inside diameter than the second diameter region. | 2015-12-03 |
20150345292 | Disconnectable Method and System For Seafloor Mining - A system for seafloor mining comprising a vertical riser anchored to the seafloor; a mining machine to deliver seafloor ore to the vertical riser; a lifting system to pass the ore through the vertical riser; and a transport vessel removably connected to the vertical riser to receive ore from the vertical riser. | 2015-12-03 |
20150345293 | SUPPORT CHANNEL - Devices, systems, and methods for securing a wall are disclosed herein. A wall can be secured by attaching a support system to the wall. The support system can include a channel support, an affixation plate, and one or several securement features. The channel support can include a bearing surface that is divided into two portions by a rigidity structure. The rigidity structure can include two rigidity members that together form an M shape. The bearing surface of the channel support can be held against the wall by the affixation plate and the one or several securement features. | 2015-12-03 |
20150345294 | METHOD OF BALANCING A SPOOL OF A GAS TURBINE ENGINE - A method of balancing a spool of a gas turbine engine, the spool including a forward rotor assembly and an aft rotor assembly separated by a spacer, the method comprising: balancing the forward rotor assembly and the aft rotor assembly independently from one another using conventional balancing techniques; and mathematically modeling the spool; applying a modeled axial load to the modeled spool to determine a trim weight which would balance the spool when subjected to the modeled axial load; and physically placing the trim weight to one of the forward rotor assembly and the aft rotor assembly. | 2015-12-03 |
20150345295 | DEVELOPMENTS IN OR RELATING TO ROTOR BALANCING - A method of reducing dynamic imbalance in a bladed rotor assembly by axially adjusting one or more of the blades so as to redistribute mass along the geometric axis of the assembly. The blades may be axially adjusted to form a counterbalancing couple. Additional correction masses may be added for supplemental correction of couple imbalance or residual static imbalance in the bladed rotor assembly. The invention offers a reduction in the weight penalty associated with conventional balancing corrections carried out on the bladed rotor assembly. | 2015-12-03 |
20150345296 | TURBINE BUCKET ASSEMBLY AND TURBINE SYSTEM - A turbine bucket assembly and turbine system are disclosed. The turbine bucket assembly includes a single-lobe joint having an integral platform, the joint having a first axial length; a segmented airfoil having a root segment extending radially outward from the platform and a tip segment coupled to the root segment, the tip segment having a second axial length, which is less than the first axial length; and a turbine wheel defining a receptacle with a geometry corresponding to the single-lobe joint and being coupled to the single-lobe joint. The tip segment includes a tip segment material, the root segment includes a root segment material, and the turbine wheel includes a turbine wheel material, the root segment material and the turbine wheel material having a lower heat resistance and a higher thermal expansion than the tip segment material. | 2015-12-03 |
20150345297 | GAS TURBINE BLADE - The invention refers to a gas turbine blade including an airfoil extending in radial direction from a blade root to a blade tip, defining a span ranging from 0% at the blade root to 100% at the blade tip, and extending in axial direction from a leading edge to a trailing edge, which limit a chord with an axial chord length defined by an axial length of a straight line connecting the leading edge and trailing edge of the airfoil depending on the span. The axial chord length increases at least from 80% span to 100% span. | 2015-12-03 |
20150345298 | GAS TURBINE ENGINE COMPONENT HAVING VASCULAR ENGINEERED LATTICE STRUCTURE - A component according to an exemplary aspect of the present disclosure includes, among other things, a wall and a vascular engineered lattice structure formed inside of the wall. The vascular engineered lattice structure includes at least one of a hollow vascular structure and a solid vascular structure configured to communicate fluid through the vascular engineered lattice structure. | 2015-12-03 |
20150345299 | SYSTEMS AND METHODS FOR PRE-STRESSING BLADES - A system and methods are provided for pre-stressing blade elements for a gas turbine engine. In one embodiment, a method includes rotating a blade element relative to an axis. The method may also include controlling rotational speed of the blade element to generate residual stress in the blade element. The method may also include rotating multiple blade elements and fan blade units to generate residual stress. Blade elements may be rotated to exceed a maximum operating speed of the blade element to 120% of the maximum operating speed of the blade element. | 2015-12-03 |
20150345300 | COOLING STRUCTURE FOR STATIONARY BLADE - A cooling structure for a stationary blade is provided. The cooling structure may include a first chamber in an endwall of the stationary blade directing a first cooling fluid from the stationary blade to a first cooling circuit, and a second chamber in the endwall of the stationary blade directing a second cooling fluid from the stationary blade to a second cooling circuit different than the first cooling circuit. The first cooling fluid has a lower temperature than the second cooling fluid. | 2015-12-03 |
20150345301 | ROTOR BLADE COOLING FLOW - A rotor blade includes and airfoil. The airfoil includes pressure and suction side walls which extend radially outwardly from a platform in span from a root to a tip and between a leading edge and a trialing edge. The tip includes a tip floor, a plurality of coolant outlets and a tip rail having a pressure side and suction side portions that extend radially outwardly from the tip floor. Cooling passages are circumscribed within the airfoil and are in fluid communication with one or more of the coolant outlets. A baffle extends radially outwardly from and transversely across the tip floor from the pressure side portion to the suction side portion to define first and second tip pockets. A slot is disposed along the suction side portion of the tip rail to provide for fluid communication out of one of the first or second tip pockets, thereby reducing pressure within the corresponding tip pocket. | 2015-12-03 |
20150345302 | TRANSPIRATION-COOLED ARTICLE HAVING NANOCELLULAR FOAM - A transpiration-cooled article includes a body wall that has first and second opposed surfaces. The first surface is adjacent a passage that is configured to receive a pressurized cooling fluid. At least a portion of the body wall includes a nanocellular foam through which the pressurized cooling fluid from the passage can flow to the second surface. The article can be an airfoil that includes an airfoil body that has an internal passage and an outer gas-path surface. At least a portion of the airfoil body includes a nanocellular foam through which cooling fluid from the internal passage can flow to the gas-path surface. | 2015-12-03 |
20150345303 | ROTOR BLADE COOLING - A rotor blade includes a mounting portion comprising a mounting body that is formed to receive a coolant therein. An airfoil portion extends substantially radially outwardly from the mounting body and includes an airfoil body. The mounting body and the airfoil body define a plurality of primary cooling passages that extend substantially radially therein for routing the coolant through the airfoil body. Each of the primary cooling passages includes a cooling flow outlet that is formed along a tip portion of the airfoil body. The airfoil body further defines a plurality of trailing edge cooling passages, each having a coolant outlet that is formed along a trailing edge portion of the airfoil body. At least a portion of the trailing edge cooling passages are formed along a radially outer portion of the trailing edge proximate to the tip portion of the airfoil body. | 2015-12-03 |
20150345304 | GAS TURBINE ENGINE COMPONENT HAVING VASCULAR ENGINEERED LATTICE STRUCTURE - A component according to an exemplary aspect of the present disclosure includes, among other things a wall and a vascular engineered lattice structure formed inside of the wall. The vascular engineered lattice structure defines a hollow vascular structure configured to communicate a fluid through the vascular engineered lattice structure. The vascular engineered lattice structure has at least one inlet hole and at least one outlet hole that communicates the fluid into and out of the hollow vascular structure. | 2015-12-03 |
20150345305 | FASTBACK VORTICOR PIN - A structure for disrupting the flow of a fluid, the structure comprising: (a) a first lateral wall and a second lateral wall spaced apart from one another, yet joined, by a floor and a ceiling; and, (b) a vorticor pin extending incompletely between the first lateral wall and the second lateral wall in a direction parallel to an X-axis, the vorticor pin concurrently rising above and extending away from the floor to a height, in a direction parallel to a Y-axis, to provide a gap between the vorticor pin and the ceiling, the vorticor pin comprising: (i) a front surface extending incompletely between the first lateral wall and the second lateral wall, the front surface extending above the floor and having an arcuate portion that is transverse with respect to a Z-axis, which is perpendicular to the X-axis and the Y-axis, and (ii) a rear surface extending between the first lateral wall and the second lateral wall, the rear surface extending between the front surface and the floor, the rear surface having an inclining section that tapers in height, taken parallel to the Y-axis, in a direction parallel to the Z-axis. | 2015-12-03 |
20150345306 | TURBOMACHINE BLADE TIP SHROUD - Embodiments of the present disclosure are directed toward systems including a turbomachine blade tip shroud having a pressure side portion and a suction side portion. The pressure side portion and the suction side portion are divided by a mean camber line of a turbomachine blade, and the pressure side portion has a greater surface area than the suction side portion. | 2015-12-03 |
20150345307 | TURBINE BUCKET ASSEMBLY AND TURBINE SYSTEM - A turbine bucket assembly and turbine system are disclosed. The assembly includes a multi-lobe joint having an integral platform, the joint having a first axial length; a segmented airfoil having a root segment extending radially outward from the platform and a tip segment coupled to the root segment, the tip segment having a second axial length less than the first axial length; and a turbine wheel defining a receptacle with a geometry corresponding to the multi-lobe joint and being coupled to the multi-lobe joint. A tip segment material, a root segment material, and a turbine wheel material are selected, such that the turbine wheel material and the root segment material have a lower heat resistance and a higher thermal expansion than the tip segment material. | 2015-12-03 |
20150345308 | TURBINE COMPONENT - A turbine component is disclosed. The turbine component includes an outer shroud and an inner shroud having a first hook region extending over a first portion of the outer shroud and a second hook region extending over a second portion of the outer shroud. A first hook gap, a second hook gap, a first radial gap, and a second radial gap are arranged and disposed to permit the inner shroud to deflect from the outer shroud under thermal loading. Additionally or alternatively, the inner shroud includes ceramic matrix composite fibers having a thermal conductivity of less than 200 W/m·k and greater than 10 W/m·k. | 2015-12-03 |
20150345309 | TURBINE BUCKET ASSEMBLY AND TURBINE SYSTEM - A turbine bucket assembly and turbine system are disclosed. The assembly includes a single-lobe joint having an integral platform, the joint having a first axial length; a segmented airfoil having a root segment extending radially outward from the platform and a tip segment coupled to the root segment, the tip segment having a second axial length being less than the first axial length; and a turbine wheel having a receptacle with a geometry corresponding to the single-lobe joint and being coupled to the single-lobe joint. The tip segment includes a tip segment material, the root segment includes a root segment material, and the turbine wheel includes a turbine wheel material having a lower heat resistance and a higher thermal expansion than the root segment material and the tip segment material. | 2015-12-03 |
20150345310 | TURBINE BUCKET ASSEMBLY AND TURBINE SYSTEM - A turbine bucket assembly and turbine system are disclosed. The assembly includes a single-lobe joint having an integral platform, the joint having a first axial length; a non-segmented airfoil extending radially outward from the integral platform and having a tip end with a second axial length, the second axial length being less than the first axial length; and a turbine wheel having a receptacle with a geometry corresponding to the single-lobe joint and being coupled to the single-lobe joint. The joint and the non-segmented airfoil include a turbine bucket material, and the turbine wheel includes a turbine wheel material, the turbine wheel material having a lower heat resistance and a higher thermal expansion than the turbine bucket material. | 2015-12-03 |
20150345311 | APPARATUS AND METHODS FOR FORMING MODIFIED METAL COATINGS - Methods and systems for forming modified metal coatings on a gas turbine engine component. The gas turbine engine component is placed inside a container having a known volume, along with a source material containing a secondary element. The container, gas turbine engine component, and the source material inside the container are placed into an oxygen-depleted space inside a reaction chamber. At least one temperature for the source material is determined based upon the known volume of the container and an amount of the source material. While in the oxygen-depleted space, the source material is heated to the at least one temperature sufficient to release a vapor phase reactant containing the secondary element. The vapor phase reactant is confined inside the container at an approximately constant pressure and the secondary element is deposited from the vapor phase reactant as a layer on the gas turbine engine component. | 2015-12-03 |
20150345312 | DUAL ELEMENT TURBINE BLADE - A method of manufacturing a turbine blade includes providing a core element having a base portion, a tip portion, and an intermediate portion extending between the base portion and the tip portion. The intermediate portion has a non-uniform cross-section and is a high-strength fiber material. The method also includes surrounding the core element with a shell, the volume between the core element and the shell forming a void. | 2015-12-03 |
20150345313 | TILE FOR FABRICATION AND REPAIR OF THERMAL BARRIERS - A thermal barrier tile ( | 2015-12-03 |