Halliburton Energy Services, Inc Patent Portfolio Statistics

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Halliburton Energy Services, Inc.

Profile Summary

This article summarizes the perfomance of the assignee in the recent years. The overall statistics for this portfolio help to analyze the areas where the assignee is performing well. The filing trend, perfomance across the tech centers and the perfomance of the recent applications has been mentioned below. All the stats are calculated based on the perfomance in USPTO.

How does the overall patent portfolio of Halliburton Energy Services, Inc. look like?

Assignee Art Units
Total Applications: 11,345 2,117,896
Granted Patents: 8,640 1,336,670
Grant Index 85.8% 77.49%
Abandoned/Rejected Applications: 1,430 (14.2%) 388,198 (22.51%)
In-Process Applications: 1,256 393,028
Average Grant Time: 2.67 Years 2.56 Years
Average Office Actions: 1.87 1.47

Which Technology Area Halliburton Energy Services, Inc. is filing most patents in? (Last 10 years)

Art Unit Definition Total Applications
3672 Wells, Earth Boring/Moving/Working, Excavating, Mining, Harvesters, Bridges, Roads, Petroleum, Closures, Connections, and Hardware 1,978
3676 Wells, Earth Boring/Moving/Working, Excavating, Mining, Harvesters, Bridges, Roads, Petroleum, Closures, Connections, and Hardware 1,944
3674 Wells, Earth Boring/Moving/Working, Excavating, Mining, Harvesters, Bridges, Roads, Petroleum, Closures, Connections, and Hardware 1,579
1768 295
2856 Printing/Measuring and Testing 252

How many patents are Halliburton Energy Services, Inc. filing every year?

Year Total Applications Predicted
2022 0* 1656
2021 200* 1460
2020 737 1338
2019 1,027 1027
2018 758
2017 1,010
2016 1,006
2015 805
2014 560
2013 670

*The drop in the number of applications filed in last two years compared to previous years is because applications can take up to 18 months to get published

Recently filed patent applications of Halliburton Energy Services, Inc. in USPTO?

Publication number: US11359447B1
Application number: 17/546,881

Abstract:
A method including circulating wellbore servicing fluid (WSF) downhole, passing the circulating WSF through a separator configured to separate solids therefrom, separating the plurality of particles into screened particles having a diameter greater than or equal to a mesh size and retained particles having a diameter less than the mesh size in a particulate-reduced WSF, adding a volume of second loss circulation material (LCM) composition including replenishment particles to particulate-reduced WSF to provide LCM-adjusted WSF, and introducing LCM-adjusted WSF downhole and circulating LCM-adjusted WSF. The WSF includes first LCM composition including plurality of particles having first cumulative particle size distribution (PSD). The LCM-adjusted WSF includes LCM-adjusted WSF LCMs. LCM-adjusted WSF LCMs include the retained and replenishment particles. The second LCM composition is selected to minimize a difference between a cumulative PSD of the LCM-adjusted WSF LCMs and first cumulative PSD and also minimize mass and/or volume of second LCM composition.

Publication date:
Applicant: Halliburton Energy Services, Inc.
Inventors: Dale E Jamison

Publication number: US20220098467A1
Application number: 17/545,773

Abstract:
The present disclosure provides methods, compositions, and systems embodying cement compositions and the synergistic effect of lost circulation materials (LCMs) and fluid loss control additives (FLCAs) thereupon for cementing subterranean zones. A method of subterranean well cementing, comprising providing a cement composition comprising a hydraulic cement, a first FLCA, an LCM, and water, wherein the first FLCA comprises a water-soluble polymer with repeating units comprising a 5- to 6-membered cyclic amide; introducing the cement composition into a wellbore penetrating a subterranean formation, wherein inclusion of the first FLCA and the LCM in the cement composition fluid reduces fluid loss into the subterranean formation, wherein the subterranean formation has fractures with a width of from about 1 micron to about 800 microns, and wherein the subterranean formation has a permeability of about 1 milliDarcy to about 300 Darcy; and allowing the cement composition to set in the subterranean formation.

Publication date: 2022-03-31
Applicant: Halliburton Energy Services, Inc.
Inventors: Jason Lewis Samuel

Publication number: US20220089933A1
Application number: 17/543,466

Abstract:
Methods of wellbore cementing are provided. A method of designing a cement composition may include: selecting a target heat of hydration for a target time and temperature; selecting one or more cementitious components and a weight percent for each of the one or more cementitious components such that a sum of a heat of hydration of the one or more cementitious components is less than or equal to the target heat of hydration; preparing the cement composition; and allowing the cement composition to set.

Publication date: 2022-03-24
Applicant: Halliburton Energy Services, Inc.
Inventors: Pang Xueyu

How are Halliburton Energy Services, Inc.’s applications performing in USPTO?

Application Number Title Status Art Unit Examiner
17/546,881 Method To Perform Background Lcm Treatments 3674 Bomar, Thomas S
17/545,773 Combination Of Fluid Loss Control Additive And Lost Circulation Materials To Control Losses In Formation Docketed New Case – Ready for Examination 3674 Runyan, Silvana C
17/543,466 Control Heat Of Hydration By Characterizing Cementitious Components Docketed New Case – Ready for Examination OPAP Central, Docket
17/540,658 Pressure Regulating Check Valve Docketed New Case – Ready for Examination OPAP Central, Docket
17/539,725 Siphon Pump Chimney For Formation Tester Docketed New Case – Ready for Examination OPAP Central, Docket