Halliburton Energy Services, Inc. patent applications on April 3rd, 2025
Patent Applications by Halliburton Energy Services, Inc. on April 3rd, 2025
Halliburton Energy Services, Inc.: 23 patent applications
Halliburton Energy Services, Inc. has applied for patents in the areas of E21B41/00 (12), E21B23/01 (8), E21B33/12 (6), E21B7/06 (4), E21B34/06 (4) E21B41/0035 (8), E21B43/38 (3), E21B7/061 (2), E21B23/00 (2), C04B24/126 (1)
With keywords such as: assembly, multilateral, configured, end, deflector, tubular, sleeve, opening, having, and wellbore in patent application abstracts.
Patent Applications by Halliburton Energy Services, Inc.
Inventor(s): Sourav Ghosh of Pune IN for halliburton energy services, inc., Sudhir Nimane of Pune IN for halliburton energy services, inc., Sandip Prabhakar Patil of Pune IN for halliburton energy services, inc.
IPC Code(s): C04B24/12, C04B28/04, C04B40/02, C04B103/61, C04B111/00, C09K8/467
CPC Code(s): C04B24/126
Abstract: a hydraulic cement composition is provided. the composition comprises a hydraulic cement and at least one anti-corrosion agent selected from the group consisting of urea, derivatives of urea, and combinations thereof. the composition can be mixed with water to form a carbon dioxide-resistant hydraulic cement slurry. a hydraulic cement slurry and a method of cementing in a carbon dioxide environment are also provided.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B7/06, E21B10/26, E21B17/04, E21B41/00, E21B43/16
CPC Code(s): E21B7/061
Abstract: provided is a multilateral milling assembly, a well system, and a method. the multilateral milling assembly, in one aspect, includes a multilateral whipstock assembly, the multilateral whipstock assembly having a whipstock body with a whipface and an opening extending therethrough, and a two part milling and running tool coupled to the multilateral whipstock assembly, the two part milling and running tool including: a conveyance; a smaller assembly coupled to an end of the conveyance; and a larger bit assembly slidably coupled to the conveyance, the smaller assembly and larger bit assembly configured to slidingly engage one another downhole to form a combined bit assembly. the multilateral milling assembly, in accordance with this aspect, further includes degradable material axially fixing the smaller assembly relative to the whipstock body.
Inventor(s): Mark Christopher Glaser of Spring TX US for halliburton energy services, inc.
IPC Code(s): E21B7/06
CPC Code(s): E21B7/061
Abstract: lateral access control in downhole window joint is provided via a window joint. the window joint includes an interior cavity with a first end and a second end opposite to the first end, a first opening defined at the first end, and a lateral opening through a wall of the window joint and into the interior cavity between the first end and the second end. the window joint also includes a deflector where, in a first state, the deflector permits access between the first end and the second end and, in a second state, the deflector blocks access between the first end and the second end and permits access between the first end and the lateral opening by deflecting an object travelling through the lateral opening. the window joint also includes an access control system configured to transition the deflector between the first state and the second state.
Inventor(s): Somen Kumar Bhudolia of Singapore SG for halliburton energy services, inc., Michael Linley Fripp of Singapore SG for halliburton energy services, inc., Sandeep Thatathil of Singapore SG for halliburton energy services, inc., Arpana Singh of Singapore SG for halliburton energy services, inc.
IPC Code(s): E21B23/00
CPC Code(s): E21B23/00
Abstract: a variety of methods and apparatuses are disclosed, including, in one embodiment, an apparatus comprising a hollow profile for downhole in a borehole, the hollow profile comprising a composite of an aromatic copolyester thermoset (act) and a reinforcement material, wherein the reinforcement material comprises fibers or particles, or both.
20250109644. DISSOLVABLE DOWNHOLE TOOLS_simplified_abstract_(halliburton energy services, inc.)
Inventor(s): Somen Kumar Bhudolia of Singapore SG for halliburton energy services, inc., Michael Linley Fripp of Singapore SG for halliburton energy services, inc., Sandeep Thatathil of Singapore SG for halliburton energy services, inc., Arpana Singh of Singapore SG for halliburton energy services, inc.
IPC Code(s): E21B23/00
CPC Code(s): E21B23/00
Abstract: a variety of methods and apparatus are disclosed, including, in one embodiment, a downhole tool for use in a borehole, wherein the downhole tool comprises a composite of an aromatic copolyester thermoset (act) and a reinforcement material, wherein the act has a glass transition temperature of at least 150� c., wherein the act is configured to degrade in a water-based fluid having high ph, and wherein the method can include providing the water-based fluid having the ph, such as a ph of at least 11, at least 12, at least 13, or at least 14 in the wellbore, thereby degrading or dissolving the act of the downhole tool in the wellbore.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B29/02, E21B7/06
CPC Code(s): E21B29/02
Abstract: provided is a multilateral whipstock assembly, a well system, and a method. the multilateral whipstock assembly, in one aspect, includes a whipstock body, the whipstock body having a whipface and an opening extending therethrough, and degradable material located in the opening, the degradable material configured to axially fix a smaller assembly of a two part milling and running tool relative to the whipstock body, the degradable material configured to degrade over time and allow the smaller assembly to release from the whipstock body and axially slide relative to a larger bit assembly of the two part milling and running tool to form a combined bit assembly.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B33/12, E21B34/06, E21B41/00
CPC Code(s): E21B33/12
Abstract: provided is a multilateral fluid loss device, a well system, and a method. the multilateral fluid loss device, in one aspect, includes a fluid loss device body, the fluid loss device body having a first end and a second end coupled together by a fluid passageway, and a plug member located in the fluid passageway, the plug member configured to move between a first position allowing fluid to traverse the fluid passageway as it travels from the first end to the second end and a second position preventing the fluid from traversing the fluid passageway as it travels from the first end to the second end. the multilateral fluid loss device, in this one aspect, may further include degradable material located within the fluid passageway and engaged with the plug member.
Inventor(s): Mathusan Mahendran of Singapore SG for halliburton energy services, inc., Cem Sonat of Singapore SG for halliburton energy services, inc., Nithin Kumar Gupta Dachepally of Singapore SG for halliburton energy services, inc.
IPC Code(s): E21B33/13, E21B33/12
CPC Code(s): E21B33/13
Abstract: a variety of methods/systems/apparatus/compositions are disclosed, including, in one embodiment, a downhole tool (for use in a borehole) having a mandrel, a sealing element including metal particles disposed about the mandrel, and a piston to move a containment component of the downhole tool in an axial direction to move the metal particles in the axial direction, thereby displacing the metal particles in a radial direction toward a borehole wall to expand the sealing element in the radial direction to form a seal between the downhole tool and the borehole wall.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc., Adam Michael Pasicznyk of Spring TX US for halliburton energy services, inc., Eulalio De Jesus Rosas Fermin of Spring TX US for halliburton energy services, inc., Benjamin Luke Butler of Dubai AE for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B23/01
CPC Code(s): E21B41/0035
Abstract: provided is multilateral junction sleeve assembly, a well system, and a method. the multilateral junction sleeve assembly, in one aspect, includes a multilateral deflector assembly, the multilateral deflector assembly including a deflector body having a deflector face and an opening extending therethrough, as well as a deflector assembly sleeve coupled to an uphole end of the deflector body, the deflector assembly sleeve having a sidewall opening in a sidewall thereof aligned with the deflector face. the multilateral junction sleeve assembly in accordance with this aspect, further includes an expandable metal anchor positioned on a radial exterior surface of the deflector assembly sleeve, the expandable metal anchor including a metal configured to expand in response to hydrolysis to axially and rotationally fix the multilateral deflector assembly within a wellbore tubular.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc., Adam Michael Pasicznyk of Spring TX US for halliburton energy services, inc., Eulalio De Jesus Rosas Fermin of Spring TX US for halliburton energy services, inc., Benjamin Luke Butler of Dubai AE for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B23/01, E21B33/12, E21B34/06
CPC Code(s): E21B41/0035
Abstract: provided is a multilateral lateral bore completion, a well system, and a method. the multilateral lateral bore completion, in one aspect, includes a tubular having a first end and a second end, and first and second packers located on a radial exterior surface of the tubular, the first and second packers configured to move from a radially retracted state to a radially extended state to engage with a wellbore tubular and separate the tubular into first and second production zones. the multilateral lateral bore completion, according to this aspect, further includes an expandable metal anchor positioned on the radial exterior surface of the tubular, the expandable metal anchor including a metal configured to expand in response to hydrolysis to axially and rotationally fix the tubular with respect to the wellbore tubular.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc., Adam Michael Pasicznyk of Spring TX US for halliburton energy services, inc., Eulalio De Jesus Rosas Fermin of Spring TX US for halliburton energy services, inc., Benjamin Luke Butler of Dubai AE for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B23/01, E21B33/12
CPC Code(s): E21B41/0035
Abstract: provided is a multilateral lateral bore completion, a well system, and a method. the multilateral lateral bore completion, in one embodiment, includes a tubular having a first end and a second end, and first and second packers located on a radial exterior surface of the tubular, the first and second packers configured to move from a radially retracted state to a radially extended state to engage with a wellbore tubular. the multilateral lateral bore completion, in accordance with this embodiment, further includes a transition joint coupled to the first end of the tubular, the transition joint configured to extend out into a main wellbore, and an expandable metal anchor positioned on the radial exterior surface of the transition joint, the expandable metal anchor including a metal configured to expand in response to hydrolysis to axially and rotationally fix the transition joint with respect to the wellbore tubular.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B23/01, E21B33/12, E21B34/06
CPC Code(s): E21B41/0035
Abstract: provided is a multilateral mainbore completion, a well system, and a method. the multilateral mainbore completion, in one aspect, includes a tubular having a first end and a second end, and first and second packers located on a radial exterior surface of the tubular, the first and second packers configured to move from a radially retracted state to a radially extended state to engage with a wellbore tubular and separate the wellbore tubular into first and second production zones. the multilateral mainbore completion, in this one aspect, may further include an expandable metal anchor positioned on the radial exterior surface of the tubular, the expandable metal anchor including a metal configured to expand in response to hydrolysis to axially and rotationally fix the tubular with respect to the wellbore tubular.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B23/01
CPC Code(s): E21B41/0035
Abstract: provided is a multilateral downhole assembly, a well system, and a method. the multilateral downhole assembly, in one aspect, includes a multilateral deflector assembly, the multilateral deflector assembly including a deflector body having a deflector face and an opening extending therethrough, and a running tool, the running tool coupled to the multilateral deflector assembly using a degradable material coupling mechanism, the degradable material coupling mechanism configured to degrade over time and allow the running tool to release from the multilateral deflector assembly.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B23/01, E21B34/06
CPC Code(s): E21B41/0035
Abstract: provided is a multilateral lateral bore completion, a well system, and a method. the multilateral lateral bore completion, in one aspect, includes a tubular having a first end and a second end. the multilateral lateral bore completion, in accordance with this aspect, further includes a transition sleeve assembly coupled to the first end of the tubular, the transition sleeve assembly including a transition sleeve including a transition sleeve body having sidewall opening in a sidewall thereof, the sidewall opening configured to align with a deflector face of a multilateral deflector assembly as a portion of the transition sleeve extends out into a lateral wellbore, and degradable material positioned on a radial exterior surface of the transition sleeve body covering the sidewall opening.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B23/01
CPC Code(s): E21B41/0035
Abstract: provided is a multilateral junction assembly, a well system, and a method. the multilateral junction assembly, in one aspect, includes a transition sleeve assembly, the transition sleeve assembly including a transition sleeve body having a sidewall opening in a sidewall thereof, the sidewall opening configured to align with a main wellbore when the transition sleeve assembly is at least partially insert within a lateral wellbore, and degradable material positioned on a radial surface of the transition sleeve body covering the sidewall opening, the degradable material configured to degrade over time and uncover the sidewall opening.
Inventor(s): Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc., Brian Williams Cho of Spring TX US for halliburton energy services, inc.
IPC Code(s): E21B41/00, E21B7/06, E21B10/26, E21B17/04, E21B43/16
CPC Code(s): E21B41/0035
Abstract: provided is a two part milling and running tool, a well system, and a method. the two part milling and running tool, in one aspect, includes a conveyance, a smaller assembly coupled to an end of the conveyance, and a larger bit assembly slidably coupled to the conveyance, the smaller assembly and larger bit assembly configured to slidingly engage one another downhole to form a combined bit assembly, the larger bit assembly having a body lock ring in an interior thereof, the body lock ring configured to allow the smaller assembly to slide toward the larger bit assembly but prevent the smaller assembly from sliding away from the larger bit assembly.
Inventor(s): Brian Williams Cho of Spring TX US for halliburton energy services, inc., Jamie Revelle Weber of Carrollton TX US for halliburton energy services, inc., Adam Michael Pasicznyk of Spring TX US for halliburton energy services, inc., Eulalio De Jesus Rosas Fermin of Spring TX US for halliburton energy services, inc., Benjamin Luke Butler of Dubai AE for halliburton energy services, inc.
IPC Code(s): E21B41/00
CPC Code(s): E21B41/0042
Abstract: provided is a multilateral junction sleeve assembly, a well system, and a method. the multilateral junction sleeve assembly, in one aspect, includes a multilateral deflector assembly, the multilateral deflector assembly including a deflector body having a deflector face and an opening extending therethrough, as well as a deflector assembly sleeve coupled to an uphole end of the deflector body, the deflector assembly sleeve having a sidewall opening in a sidewall thereof aligned with the deflector face. the multilateral junction sleeve assembly, in accordance with this aspect, further includes degradable material positioned on a radial exterior surface of the deflector assembly sleeve covering the sidewall opening, the degradable material configured to degrade over time and uncover the sidewall opening.
Inventor(s): Chee Sing Kelvin Loh of Singapore SG for halliburton energy services, inc., Shanu Thottungal Eldho of Singapore SG for halliburton energy services, inc.
IPC Code(s): E21B43/10, E21B23/01, E21B33/12
CPC Code(s): E21B43/103
Abstract: a method for expanding a two-stage expandable liner hanger includes expanding a first section of an expandable tubular having the first section and a second section. the first section includes one or more anchoring ribs. the method further includes expanding the second section of the expandable tubular after cement is pumped into the expandable tubular.
Inventor(s): Stacey Blaine Donovan of Carrollton TX US for halliburton energy services, inc., David J. Steele of Carrollton TX US for halliburton energy services, inc., Christian Alexander Ramirez of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B43/38, E21B43/12, E21B47/024
CPC Code(s): E21B43/38
Abstract: in some implementations, a downhole oil-water separation (dows) assembly may be configured to be disposed downhole in a well. the dows assembly may include a dows device configured to operate on fluids in the dows assembly. the dows assembly also may include a controller configured to determine an orientation of the dows device and to cause a change to the orientation of the dows device.
Inventor(s): David J. Steele of Carrollton TX US for halliburton energy services, inc., Benjamin Butler of Dubai AE for halliburton energy services, inc., Matthew Bradley Stokes of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B43/38, E21B41/00, E21B43/12
CPC Code(s): E21B43/38
Abstract: some implementations may include a downhole oil-water separation (dows) system configured to be positioned downhole in a well. the dows system may include a perturbation device configured to be positioned in a borehole of the well and configured to perturb a fluid having turbulent flow to collapse the turbulent flow to a laminar flow, and a fluid separator configured to be disposed in the borehole and configured to separate the fluid.
Inventor(s): Benjamin Butler of Dubai AE for halliburton energy services, inc., David J. Steele of Carrollton TX US for halliburton energy services, inc., Matthew Bradley Stokes of Carrollton TX US for halliburton energy services, inc.
IPC Code(s): E21B43/38, E21B31/14, E21B43/12
CPC Code(s): E21B43/38
Abstract: in some implementations, a system includes a cartridge configured for insertion into a flow path in a well, wherein the cartridge includes one or more devices to separate fluids. the system also may include an elongated y-block including a working space configured to enable a tool to remove the cartridge from the flow path.
Inventor(s): Anoop Sheshrao Jogdand of Pune IN for halliburton energy services, inc., K V V N Krishna Babu Yerubandi of Houston TX US for halliburton energy services, inc., Walmy Cuello Jimenez of Houston TX US for halliburton energy services, inc.
IPC Code(s): G06F30/28, E21B33/14
CPC Code(s): G06F30/28
Abstract: prepare a work order (wo) by: collecting user input; running an initial cfd-based cementing operation simulation, outputting a cfd result including simulated annular placement of cement with insufficient de. choose a section of casing; simulate mechanically coupling a turbulator to adjust displacement efficiency (de) of cement within the annulus before casing installation; adjust turbulator mechanical properties to maximize de; create the wo including adjusting turbulator spacing along the casing of the wellbore to one turbulator per joint; perform an additional cfd-based simulation with adjusted turbulator spacing to update and output simulated annular placement of cement and de; determine a change in de; adjust the wo based on a further simulation loop; and finalize the wo. cement the wellbore by: transporting turbulators to a wellsite; installing wellbore casing spaced by turbulator spacing of the finalized wo; and pumping cement into the annulus, the cement contacting the turbulators to reduce channeling.
Inventor(s): Hassan Mansir of Frimley GB for halliburton energy services, inc., Andras Bencze of Frimley GB for halliburton energy services, inc., Robert Charles De Long of Tulsa OK US for halliburton energy services, inc.
IPC Code(s): H02H7/22, H02H1/00
CPC Code(s): H02H7/226
Abstract: some implementations include an apparatus configured to, in a wellbore, eliminate voltage on one or more first conductors that are electrically connected to a surface-based power source. the apparatus may include a shorting ring electrically connectable to the first conductors and configured to electrically short the first conductors upon establishing an electrical connection with the first conductors. the apparatus may include a solenoid assembly to actuate in response to power on the first conductors from the surface-based power source. the apparatus may include a pin slider assembly connected to the first conductors and configured to move, in response to actuation by the solenoid assembly, between an electrical connection with the shorting ring and an electrical connection with one or more second conductors that have an electrical connection with a permanent magnet motor winding in the wellbore.
Halliburton Energy Services, Inc. patent applications on April 3rd, 2025
- Halliburton Energy Services, Inc.
- C04B24/12
- C04B28/04
- C04B40/02
- C04B103/61
- C04B111/00
- C09K8/467
- CPC C04B24/126
- Halliburton energy services, inc.
- E21B7/06
- E21B10/26
- E21B17/04
- E21B41/00
- E21B43/16
- CPC E21B7/061
- E21B23/00
- CPC E21B23/00
- E21B29/02
- CPC E21B29/02
- E21B33/12
- E21B34/06
- CPC E21B33/12
- E21B33/13
- CPC E21B33/13
- E21B23/01
- CPC E21B41/0035
- CPC E21B41/0042
- E21B43/10
- CPC E21B43/103
- E21B43/38
- E21B43/12
- E21B47/024
- CPC E21B43/38
- E21B31/14
- G06F30/28
- E21B33/14
- CPC G06F30/28
- H02H7/22
- H02H1/00
- CPC H02H7/226