Patents by Inventor Jimie Devon Lemons
Jimie Devon Lemons 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: 11486241Abstract: The flow of well treatment fluids may be diverted from a high permeability zone to a low permeability zone within a fracture network within a subterranean formation by use of a mixture comprising a dissolvable diverter and a proppant. At least a portion of the high permeability zone is propped open with the proppant of the mixture and at least a portion of the high permeability zone is blocked with the diverter. A fluid is then pumped into the subterranean formation and into a lower permeability zone of the formation farther from the wellbore. The diverter in the high permeability zones may then be dissolved at in-situ reservoir conditions and hydrocarbons produced from the high permeability propped zones of the fracture network. The mixture has particular applicability in the enhancement of production or hydrocarbons from high permeability zones in a fracture network located near the wellbore.Type: GrantFiled: March 13, 2018Date of Patent: November 1, 2022Assignee: Baker Hughes Holdings LLCInventors: Scott G. Nelson, Harold Dean Brannon, Jimie Devon Lemons, Thomas Ray Starks, II, D. V. Satyanarayana Gupta
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Patent number: 11111766Abstract: The complexity of a fracture network may be enhanced during a hydraulic fracturing operation by monitoring operational parameters of the fracturing job and altering stress conditions in the well in response to the monitoring of the operational parameters. The operational parameters monitored may include the injection rate of the pumped fluid, the density of the pumped fluid or the bottomhole pressure of the well after the fluid is pumped. The method provides an increase to the stimulated reservoir volume (SRV).Type: GrantFiled: March 13, 2018Date of Patent: September 7, 2021Assignee: Baker Hughes Holdings LLCInventors: Harold Dean Brannon, Thomas Ray Starks, II, Scott Gregory Nelson, Charles Elmer Bell, Tom N. Royce, D. V. Satyanarayana Gupta, Jimie Devon Lemons, Curtis David Huff, John Gottschling, Angel F. Gonzalez
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Patent number: 10240447Abstract: A method of distributing proppant in a spatial arrangement throughout a created or enlarged fracture by pumping into a subterranean formation penetrated by a well multiple stages of fracturing fluid wherein a fluid laden with proppant is pumped into the well and a fluid substantially free of proppant is then pumped into the well; the fluid of the fluid laden with proppant and the fluid substantially free of proppant being the same. Vertically extending pillars are created within the formation. Fluid produced from the hydrocarbon-bearing reservoir is then flowed at least partially through channels between the vertically extending pillars.Type: GrantFiled: September 23, 2014Date of Patent: March 26, 2019Assignee: Baker Hughes, a GE company, LLCInventors: D. V. Satyanarayana Gupta, Jimie DeVon Lemons, William D. Holcomb, Harold Dean Brannon
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Publication number: 20180202278Abstract: The flow of well treatment fluids may be diverted from a high permeability zone to a low permeability zone within a fracture network within a subterranean formation by use of a mixture comprising a dissolvable diverter and a proppant. At least a portion of the high permeability zone is propped open with the proppant of the mixture and at least a portion of the high permeability zone is blocked with the diverter. A fluid is then pumped into the subterranean formation and into a lower permeability zone of the formation farther from the wellbore. The diverter in the high permeability zones may then be dissolved at in-situ reservoir conditions and hydrocarbons produced from the high permeability propped zones of the fracture network. The mixture has particular applicability in the enhancement of production or hydrocarbons from high permeability zones in a fracture network located near the wellbore.Type: ApplicationFiled: March 13, 2018Publication date: July 19, 2018Inventors: Scott G. Nelson, Harold Dean Brannon, Jimie DeVon Lemons, Thomas Ray Starks, II, D.V. Satyanarayana Gupta
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Publication number: 20180202276Abstract: The complexity of a fracture network may be enhanced during a hydraulic fracturing operation by monitoring operational parameters of the fracturing job and altering stress conditions in the well in response to the monitoring of the operational parameters. The operational parameters monitored may include the injection rate of the pumped fluid, the density of the pumped fluid or the bottomhole pressure of the well after the fluid is pumped. The method provides an increase to the stimulated reservoir volume (SRV).Type: ApplicationFiled: March 13, 2018Publication date: July 19, 2018Inventors: Harold Dean Brannon, Thomas Ray Starks, II, Scott Gregory Nelson, Charles Elmer Bell, Tom N. Royce, D.V. Satyanarayana Gupta, Jimie Devon Lemons, Curtis David Huff, John Gottschling, Angel F. Gonzalez
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Patent number: 9920607Abstract: The complexity of a fracture network may be enhanced during a hydraulic fracturing operation by monitoring operational parameters of the fracturing job and altering stress conditions in the well in response to the monitoring of the operational parameters. The operational parameters monitored may include the injection rate of the pumped fluid, the density of the pumped fluid or the bottomhole pressure of the well after the fluid is pumped. The method provides an increase to the stimulated reservoir volume (SRV).Type: GrantFiled: June 26, 2013Date of Patent: March 20, 2018Assignee: Baker Hughes, a GE company, LLCInventors: Harold Dean Brannon, Thomas Ray Starks, II, Scott Gregory Nelson, Charles Elmer Bell, Tom N. Royce, D. V. Satyanarayana Gupta, Jimie Devon Lemons, Curtis David Huff, John Gottschling, Angel F. Gonzalez
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Patent number: 9920610Abstract: The flow of well treatment fluids may be diverted from a high permeability zone to a low permeability zone within a fracture network within a subterranean formation by use of a mixture comprising a dissolvable diverter and a proppant. At least a portion of the high permeability zone is propped open with the proppant of the mixture and at least a portion of the high permeability zone is blocked with the diverter. A fluid is then pumped into the subterranean formation and into a lower permeability zone of the formation farther from the wellbore. The diverter in the high permeability zones may then be dissolved at in-situ reservoir conditions and hydrocarbons produced from the high permeability propped zones of the fracture network. The mixture has particular applicability in the enhancement of production or hydrocarbons from high permeability zones in a fracture network located near the wellbore.Type: GrantFiled: October 10, 2014Date of Patent: March 20, 2018Assignee: Baker Hughes, a GE company, LLCInventors: Scott G. Nelson, Harold Dean Brannon, Jimie DeVon Lemons, Thomas Ray Starks, II, D. V. Satyanarayana Gupta
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Publication number: 20170159402Abstract: A fluid-impermeable barrier, used to isolate stimulated intervals in a reservoir during a multi-zone fracturing operation, may be removed from the wellbore which penetrates the reservoir using a circulating fluid containing dissolvable solid particulates. The dissolvable solid particulates bridge perforation clusters during clean-out of the wellbore and thus inhibit passage of the circulating fluid into the fracture network through the perforation clusters.Type: ApplicationFiled: December 2, 2015Publication date: June 8, 2017Inventors: Scott G. Nelson, Jimie DeVon Lemons, D.V. Satyanarayana Gupta, Harold Dean Brannon, Anna Jensen, Benjamin Tatum, Alexander Pirogov
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Patent number: 9366124Abstract: A packer on a tubing string and diverting material pumped down the tubing string may be used to isolate a fracture cluster in a multizone horizontal wellbore that has been previously hydraulically fractured. Once hydraulically isolated, fluid may be pumped down the tubing string to re-fracture the previously fractured fracture cluster in an effort to increase hydrocarbon production from the horizontal wellbore. The tubing string may include a testing device used to determine whether a specific fracture cluster within the horizontal wellbore should be re-fractured. Diverting material may be pumped down the tubing string and positioned adjacent a fracture cluster to hydraulically isolate the fracture cluster during the re-fracturing process. The diverting material may be cleaned out of the horizontal wellbore after all desired fracture clusters along the horizontal wellbore have been individually re-fractured.Type: GrantFiled: November 27, 2013Date of Patent: June 14, 2016Assignee: Baker Hughes IncorporatedInventors: Harold D. Brannon, Jimie DeVon Lemons
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Publication number: 20150144347Abstract: A packer on a tubing string and diverting material pumped down the tubing string may be used isolate a fracture cluster in a multizone horizontal wellbore that has been previously hydraulically fractured. Once hydraulically isolated, fluid may be pumped down the tubing string to re-fracture the previously fractured fracture cluster in an effort to increase hydrocarbon production from the horizontal wellbore. The tubing string may include a testing device used to determine whether a specific fracture cluster within the horizontal wellbore should be re-fractured. Diverting material may be pumped down the tubing string and positioned adjacent a fracture cluster to hydraulically isolate the fracture cluster during the re-fracturing process. The diverting material may be cleaned out of the horizontal wellbore after all desired fracture clusters along the horizontal wellbore have been individually re-fractured.Type: ApplicationFiled: November 27, 2013Publication date: May 28, 2015Applicant: BAKER HUGHES INCORPORATEDInventors: Harold D. Brannon, Jimie DeVon Lemons
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Publication number: 20150083420Abstract: A method of distributing proppant in a spatial arrangement throughout a created or enlarged fracture by pumping into a subterranean formation penetrated by a well multiple stages of fracturing fluid wherein a fluid laden with proppant is pumped into the well and a fluid substantially free of proppant is then pumped into the well; the fluid of the fluid laden with proppant and the fluid substantially free of proppant being the same. Vertically extending pillars are created within the formation. Fluid produced from the hydrocarbon-bearing reservoir is then flowed at least partially through channels between the vertically extending pillars.Type: ApplicationFiled: September 23, 2014Publication date: March 26, 2015Inventors: D.V. Satyanarayana Gupta, Jimie DeVon Lemons, William D. Holcomb, Harold Dean Brannon
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Publication number: 20150041132Abstract: The flow of well treatment fluids may be diverted from a high permeability zone to a low permeability zone within a fracture network within a subterranean formation by use of a mixture comprising a dissolvable diverter and a proppant. At least a portion of the high permeability zone is propped open with the proppant of the mixture and at least a portion of the high permeability zone is blocked with the diverter. A fluid is then pumped into the subterranean formation and into a lower permeability zone of the formation farther from the wellbore. The diverter in the high permeability zones may then be dissolved at in-situ reservoir conditions and hydrocarbons produced from the high permeability propped zones of the fracture network. The mixture has particular applicability in the enhancement of production or hydrocarbons from high permeability zones in a fracture network located near the wellbore.Type: ApplicationFiled: October 10, 2014Publication date: February 12, 2015Inventors: Scott G. Nelson, Harold Dean Brannon, Jimie DeVon Lemons, Thomas Ray Starks, II, D.V. Satyanarayana Gupta
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Publication number: 20130341030Abstract: The complexity of a fracture network may be enhanced during a hydraulic fracturing operation by monitoring operational parameters of the fracturing job and altering stress conditions in the well in response to the monitoring of the operational parameters. The operational parameters monitored may include the injection rate of the pumped fluid, the density of the pumped fluid or the bottomhole pressure of the well after the fluid is pumped. The method provides an increase to the stimulated reservoir volume (SRV).Type: ApplicationFiled: June 26, 2013Publication date: December 26, 2013Inventors: Harold Dean Brannon, Thomas Ray Starks, II, Scott Gregory Nelson, Charles Elmer Bell, Tom N. Royce, D.V. Satyanarayana Gupta, Jimie Devon Lemons, Curtis David Huff, John Gottschling, Angel F. Gonzalez