Patents by Inventor Nicholas F. Budler
Nicholas F. Budler 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: 10519765Abstract: A system for tracking an object in oil and gas wellbore operations wherein a releasable object carrying a first signal system is released into tube system associated with a wellbore. The first signal system communicates with one or more second signal systems positioned along the travel path of the object; along the surface of the formation; and/or throughout the wellbore. First signal system and the second signal system may communicate by RF signals. First signal system and any second signal systems positioned on the surface communicate by through-the-earth or very low frequency signals. A global positioning system may be utilized in conjunction with any second signal systems on the surface to identify the absolute location of the object in the underground wellbore. The first signal system carried by the object may be a piezoelectric system disposed to transmit a signal when the object experiences a predetermined pressure.Type: GrantFiled: March 31, 2015Date of Patent: December 31, 2019Assignee: Halliburton Energy Services, Inc.Inventor: Nicholas F. Budler
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Patent number: 10435984Abstract: A float valve can include a selection mechanism having an open configuration in which flow into and out of the valve is permitted, and a closed configuration in which flow out of the valve is permitted and flow into the valve is prevented. The selection mechanism can be actuated from the closed configuration to the open configuration. A method of actuating a float valve can include actuating the valve from a closed configuration in which flow into the valve is prevented but flow out of the valve is permitted, to an open configuration in which flow into and out of the valve is permitted. The valve can actuate from the open configuration to the closed configuration, and from the closed to the open configuration, in response to a flow rate through the valve being greater than a predetermined level.Type: GrantFiled: August 12, 2014Date of Patent: October 8, 2019Assignee: Halliburton Energy Services, Inc.Inventors: Christopher J. Mericas, Nicholas F. Budler
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Patent number: 10436017Abstract: A system for tracking an object in oil and gas wellbore operations wherein a releasable object carrying a first signal system is released into tube system associated with a wellbore. The first signal system communicates with one or more second signal systems positioned along the travel path of the object; along the surface of the formation; and/or throughout the wellbore. First signal system and the second signal system may communicate by RF signals. First signal system and any second signal systems positioned on the surface communicate by through-the-earth or very low frequency signals. A global positioning system may be utilized in conjunction with any second signal systems on the surface to identify the absolute location of the object in the underground wellbore. The first signal system carried by the object may be a piezoelectric system disposed to transmit a signal when the object experiences a predetermined pressure.Type: GrantFiled: March 31, 2015Date of Patent: October 8, 2019Assignee: Halliburton Energy Services, Inc.Inventors: Gabriel Coss, Nicholas F. Budler, Todd A. Stair
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Patent number: 10436016Abstract: A system for tracking an object in oil and gas wellbore operations wherein a releasable object carrying a first signal system is released into tube system associated with a wellbore. The first signal system communicates with one or more second signal systems positioned along the travel path of the object; along the surface of the formation; and/or throughout the wellbore. First signal system and the second signal system may communicate by RF signals. First signal system and any second signal systems positioned on the surface communicate by through-the-earth or very low frequency signals. A global positioning system may be utilized in conjunction with any second signal systems on the surface to identify the absolute location of the object in the underground wellbore. The first signal system carried by the object may be a piezoelectric system disposed to transmit a signal when the object experiences a predetermined pressure.Type: GrantFiled: March 31, 2015Date of Patent: October 8, 2019Assignee: Halliburton Energy Service, LLPInventors: Nicolas Rogozinski, Nicholas F. Budler
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Patent number: 10422200Abstract: A system for use in a wellbore that penetrates a subterranean formation, the system comprising: a wellbore; and a ball, wherein the ball performs one or more wellbore operations, and wherein the ball breaks apart into two or more pieces when a pressure is applied to the ball. A method of performing an operation in a wellbore, the method comprising: introducing a ball into the wellbore; causing or allowing the ball to perform at least one wellbore operation; and causing the ball to break into two or more pieces after performing the at least one wellbore operation. The ball can also perform more than one wellbore operation. The ball can also contain a core.Type: GrantFiled: October 17, 2014Date of Patent: September 24, 2019Assignee: Halliburton Energy Services, Inc.Inventor: Nicholas F. Budler
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Publication number: 20180016891Abstract: A system for tracking an object in oil and gas wellbore operations wherein a releasable object carrying a first signal system is released into tube system associated with a wellbore. The first signal system communicates with one or more second signal systems positioned along the travel path of the object; along the surface of the formation; and/or throughout the wellbore. First signal system and the second signal system may communicate by RF signals. First signal system and any second signal systems positioned on the surface communicate by through-the-earth or very low frequency signals. A global positioning system may be utilized in conjunction with any second signal systems on the surface to identify the absolute location of the object in the underground wellbore. The first signal system carried by the object may be a piezoelectric system disposed to transmit a signal when the object experiences a predetermined pressure.Type: ApplicationFiled: March 31, 2015Publication date: January 18, 2018Inventors: Nicolas Rogozinski, Nicholas F. Budler
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Publication number: 20180016892Abstract: A system for tracking an object in oil and gas wellbore operations wherein a releasable object carrying a first signal system is released into tube system associated with a wellbore. The first signal system communicates with one or more second signal systems positioned along the travel path of the object; along the surface of the formation; and/or throughout the wellbore. First signal system and the second signal system may communicate by RF signals. First signal system and any second signal systems positioned on the surface communicate by through-the-earth or very low frequency signals. A global positioning system may be utilized in conjunction with any second signal systems on the surface to identify the absolute location of the object in the underground wellbore. The first signal system carried by the object may be a piezoelectric system disposed to transmit a signal when the object experiences a predetermined pressure.Type: ApplicationFiled: March 31, 2015Publication date: January 18, 2018Inventor: Nicholas F. Budler
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Publication number: 20180010442Abstract: A system for tracking an object in oil and gas wellbore operations wherein a releasable object carrying a first signal system is released into tube system associated with a wellbore. The first signal system communicates with one or more second signal systems positioned along the travel path of the object; along the surface of the formation; and/or throughout the wellbore. First signal system and the second signal system may communicate by RF signals. First signal system and any second signal systems positioned on the surface communicate by through-the-earth or very low frequency signals. A global positioning system may be utilized in conjunction with any second signal systems on the surface to identify the absolute location of the object in the underground wellbore. The first signal system carried by the object may be a piezoelectric system disposed to transmit a signal when the object experiences a predetermined pressure.Type: ApplicationFiled: March 31, 2015Publication date: January 11, 2018Inventors: Gabriel Coss, Nicholas F. Budler, Todd A. Stair
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Publication number: 20170247978Abstract: A system for use in a wellbore that penetrates a subterranean formation, the system comprising: a wellbore; and a ball, wherein the ball performs one or more wellbore operations, and wherein the ball breaks apart into two or more pieces when a pressure is applied to the ball. A method of performing an operation in a wellbore, the method comprising: introducing a ball into the wellbore; causing or allowing the ball to perform at least one wellbore operation; and causing the ball to break into two or more pieces after performing the at least one wellbore operation. The ball can also perform more than one wellbore operation. The ball can also contain a core.Type: ApplicationFiled: October 17, 2014Publication date: August 31, 2017Inventor: Nicholas F. BUDLER
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Publication number: 20170167225Abstract: A float valve can include a selection mechanism having an open configuration in which flow into and out of the valve is permitted, and a closed configuration in which flow out of the valve is permitted and flow into the valve is prevented. The selection mechanism can be actuated from the closed configuration to the open configuration. A method of actuating a float valve can include actuating the valve from a closed configuration in which flow into the valve is prevented but flow out of the valve is permitted, to an open configuration in which flow into and out of the valve is permitted. The valve can actuate from the open configuration to the closed configuration, and from the closed to the open configuration, in response to a flow rate through the valve being greater than a predetermined level.Type: ApplicationFiled: August 12, 2014Publication date: June 15, 2017Applicant: Halliburton Energy Services, Inc.Inventors: Christopher J. Mericas, Nicholas F. Budler
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Patent number: 9033056Abstract: Systems and methods for activating a down hole tool in a wellbore. A piston is moveable from a first position to a second position for activating the down hole tool. The piston includes a first side exposed to a first chamber, and a second side exposed to a second chamber. A rupture member has a first side exposed to the first chamber and a second side exposed to a third chamber. The rupture member is configured to rupture when a pressure differential between the first chamber and the third chamber reaches a predetermined threshold value, at which point the rupture member allows fluid communication between the first chamber and the third chamber. When the rupture member is intact, the piston is in the first position, and when the rupture member ruptures, the piston moves to the second position and activates the down hole tool.Type: GrantFiled: August 15, 2012Date of Patent: May 19, 2015Assignee: Halliburton Energy Srvices, Inc.Inventors: Frank Acosta, Nicholas F. Budler, David D. Szarka
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Publication number: 20140048281Abstract: Systems and methods for activating a down hole tool in a wellbore. A piston is moveable from a first position to a second position for activating the down hole tool. The piston includes a first side exposed to a first chamber, and a second side exposed to a second chamber. A rupture member has a first side exposed to the first chamber and a second side exposed to a third chamber. The rupture member is configured to rupture when a pressure differential between the first chamber and the third chamber reaches a predetermined threshold value, at which point the rupture member allows fluid communication between the first chamber and the third chamber. When the rupture member is intact, the piston is in the first position, and when the rupture member ruptures, the piston moves to the second position and activates the down hole tool.Type: ApplicationFiled: August 15, 2012Publication date: February 20, 2014Applicant: Haliburton Energy Services, Inc.Inventors: Frank Acosta, Nicholas F. Budler, David D. Szarka