Patents by Inventor Jeremiah Daniel
Jeremiah Daniel has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7798233Abstract: The present invention relates to overpressure protection systems and methods for use on a production system for transferring hydrocarbons from a well on the seafloor to a vessel floating on the surface of the sea. The production system includes a subsea well in fluid communication with a turret buoy through a production flowline and riser system. The turret buoy is capable of connecting to a swivel located on a floating vessel. The overpressure protection device is positioned upstream of the swivel, to prevent overpressure of the production swivel and downstream components located on the floating vessel. The device may include one or more shut down valves, one or more sensors, an actuator assembly, and a control processor.Type: GrantFiled: December 6, 2006Date of Patent: September 21, 2010Assignee: Chevron U.S.A. Inc.Inventors: Jeremiah Daniel, Jin-Sug Chung, Ramanathan Ramaswamy, Joseph M. Gebara, John L. Upchurch
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Patent number: 7793726Abstract: A marine riser system for transferring fluid between a well on the seafloor and a vessel floating on the surface of the sea. The riser system has a turret buoy capable of connecting to a floating vessel; two or more hybrid risers, each of the hybrid risers having a vertical riser, a riser buoy attached to the upper portion of the vertical riser and a flexible jumper connecting the riser buoy to the turret buoy, and wherein the hybrid risers are secured to the seafloor. A flowline may connect a lower portion of each of the vertical risers to a subsea manifold, which interconnects the flowline and a subsea well. The subsea manifold is capable of controlling the flow to or from a subsea well. The hybrid risers are positioned about the turret buoy so that the turret buoy is horizontally balanced while disconnected from a vessel. In another embodiment, the marine riser system is capable of directing a fluid from the floating vessel to a subsea export flowline.Type: GrantFiled: December 6, 2006Date of Patent: September 14, 2010Assignee: Chevron U.S.A. Inc.Inventors: Jeremiah Daniel, James E. Dailey, Ruxin Song
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Patent number: 7793724Abstract: An improved subsea manifold system that is capable of being used in an early production system for producing hydrocarbons from a plurality of wells from a common riser system. The subsea manifold is able to control the fluid from a multiple of subsea wet-tree wells while at the same time giving the operator the option to isolate production from a single subsea well for production evaluation. The subsea manifold also includes a pigging loop which enables efficient pigging of the flowline(s) of the early production system.Type: GrantFiled: December 6, 2006Date of Patent: September 14, 2010Assignee: Chevron U.S.A Inc.Inventors: Jeremiah Daniel, James E. Dailey
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Patent number: 7793725Abstract: The present invention relates to overpressure protection systems and methods for use on a production system for transferring hydrocarbons from a well on the seafloor to a vessel floating on the surface of the sea. The production system includes a subsea well in fluid communication with a turret buoy through a production flowline and riser system. The turret buoy is capable of connecting to a swivel located on a floating vessel. The overpressure protection device is positioned upstream of the swivel, to prevent overpressure of the production swivel and downstream components located on the floating vessel. The device may include one or more shut down valves, one or more sensors, an actuator assembly, and a control processor. Each shut down valve and sensor is coupled to a production flowline. Each of the sensors is capable of generating a signal based upon a pressure sensed within the production flowline. The actuator assembly is connected to each of the shut down valves for operating the shut down valves.Type: GrantFiled: December 6, 2006Date of Patent: September 14, 2010Assignee: Chevron U.S.A. Inc.Inventors: Jeremiah Daniel, Jin-Sug Chung, Ramanathan Ramaswamy, Joseph M. Gebara, John L. Upchurch
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Publication number: 20090095020Abstract: A method is proposed for converting a portion of associated gas generated during crude oil production into a liquid form which permits the transport of a large amount of methane at moderate temperatures.Type: ApplicationFiled: December 17, 2008Publication date: April 16, 2009Inventors: Arif Shipchandler, Carolyn J. Ritchie, Jeremiah Daniel
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Publication number: 20080135256Abstract: An improved subsea manifold system that is capable of being used in an early production system for producing hydrocarbons from a plurality of wells from a common riser system. The subsea manifold is able to control the fluid from a multiple of subsea wet-tree wells while at the same time giving the operator the option to isolate production from a single subsea well for production evaluation. The subsea manifold also includes a pigging loop which enables efficient pigging of the flowline(s) of the early production system.Type: ApplicationFiled: December 6, 2006Publication date: June 12, 2008Applicants: Chevron U.S.A. Inc., Technip U.S.A., Inc.Inventors: Jeremiah Daniel, James E. Dailey
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Publication number: 20080140337Abstract: The present invention relates to overpressure protection systems and methods for use on a production system for transferring hydrocarbons from a well on the seafloor to a vessel floating on the surface of the sea. The production system includes a subsea well in fluid communication with a turret buoy through a production flowline and riser system. The turret buoy is capable of connecting to a swivel located on a floating vessel. The overpressure protection device is positioned upstream of the swivel, to prevent overpressure of the production swivel and downstream components located on the floating vessel. The device may include one or more shut down valves, one or more sensors, an actuator assembly, and a control processor. Each shut down valve and sensor is coupled to a production flowline. Each of the sensors is capable of generating a signal based upon a pressure sensed within the production flowline. The actuator assembly is connected to each of the shut down valves for operating the shut down valves.Type: ApplicationFiled: December 6, 2006Publication date: June 12, 2008Applicants: Chevron U.S.A. Inc., Technip USA, Inc.Inventors: Jeremiah Daniel, Jin-Sug Chung, Ramanathan Ramaswamy, Joseph M. Gebara, John L. Upchurch
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Publication number: 20080138159Abstract: A marine riser system for transferring fluid between a well on the seafloor and a vessel floating on the surface of the sea. The riser system has a turret buoy capable of connecting to a floating vessel; two or more hybrid risers, each of the hybrid risers having a vertical riser, a riser buoy attached to the upper portion of the vertical riser and a flexible jumper connecting the riser buoy to the turret buoy, and wherein the hybrid risers are secured to the seafloor. A flowline may connect a lower portion of each of the vertical risers to a subsea manifold, which interconnects the flowline and a subsea well. The subsea manifold is capable of controlling the flow to or from a subsea well. The hybrid risers are positioned about the turret buoy so that the turret buoy is horizontally balanced while disconnected from a vessel. In another embodiment, the marine riser system is capable of directing a fluid from the floating vessel to a subsea export flowline.Type: ApplicationFiled: December 6, 2006Publication date: June 12, 2008Applicants: Chevron U.S.A. Inc., Technip USA, Inc.Inventors: Jeremiah Daniel, James E. Dailey, Ruxin Song
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Publication number: 20080135258Abstract: The present invention relates to overpressure protection systems and methods for use on a production system for transferring hydrocarbons from a well on the seafloor to a vessel floating on the surface of the sea. The production system includes a subsea well in fluid communication with a turret buoy through a production flowline and riser system. The turret buoy is capable of connecting to a swivel located on a floating vessel. The overpressure protection device is positioned upstream of the swivel, to prevent overpressure of the production swivel and downstream components located on the floating vessel. The device may include one or more shut down valves, one or more sensors, an actuator assembly, and a control processor. Each shut down valve and sensor is coupled to a production flowline. Each of the sensors is capable of generating a signal based upon a pressure sensed within the production flowline. The actuator assembly is connected to each of the shut down valves for operating the shut down valves.Type: ApplicationFiled: December 6, 2006Publication date: June 12, 2008Applicants: Chevron U.S.A. Inc., Technip USA, Inc.Inventors: Jeremiah Daniel, Jin-Sug Chung, Ramanathan Ramaswamy, Joseph M. Gebara, John L. Upchurch
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Publication number: 20070130991Abstract: A method is proposed for converting a portion of associated gas generated during crude oil production into a liquid form which permits the transport of a large amount of methane at moderate temperatures.Type: ApplicationFiled: December 14, 2005Publication date: June 14, 2007Inventors: Arif Shipchandler, Carolyn Ritchie, Jeremiah Daniel