SAUDI ARABIAN OIL COMPANY patent applications on January 23rd, 2025
Patent Applications by SAUDI ARABIAN OIL COMPANY on January 23rd, 2025
SAUDI ARABIAN OIL COMPANY: 16 patent applications
SAUDI ARABIAN OIL COMPANY has applied for patents in the areas of B01J23/745 (2), B01J23/00 (2), G05B23/02 (2), B01J35/02 (2), E21B49/00 (2) G01V11/002 (2), B01F23/23105 (1), C09K8/584 (1), C10G33/08 (1), C10G47/12 (1)
With keywords such as: oil, fluid, data, stream, water, formation, wells, hydrogen, gas, and through in patent application abstracts.
Patent Applications by SAUDI ARABIAN OIL COMPANY
Inventor(s): Maxim Orlov of Moscow (RU) for saudi arabian oil company, Vyacheslav Grokhovsky of Moscow (RU) for saudi arabian oil company, Muhammad M. Almajid of Qatif (SA) for saudi arabian oil company
IPC Code(s): B01F23/231, B01F35/90
CPC Code(s): B01F23/23105
Abstract: a microfluidic system () may include a set of replaceable microfluidic cartridges (), each having a mechanically rigid box () and a set of parallel microfluidic capillaries (), and a cooling system () that is in thermal contact with the mechanically rigid box (). a gas stream may flow through the capillaries (), and an aqueous fluid stream may flow through a space () in between an inner surface of the mechanically rigid box () and an outer surface of the set of capillaries (). a method may include providing such a microfluidic system (), introducing a gas stream through capillaries (), introducing an aqueous fluid stream to flow through the space (), generating gas bubbles () in the aqueous fluid stream through the capillaries (), saturating the aqueous fluid stream with gas bubbles (), recirculating the remaining undissolved gas through a dedicated contour tube and transferring the gas containing the aqueous fluid stream to an external storage unit.
Inventor(s): Limin Xu of Beijing (CN) for saudi arabian oil company, Ming Han of Dhahran (SA) for saudi arabian oil company, Tianping Huang of Beijing (CN) for saudi arabian oil company
IPC Code(s): C09K8/584
CPC Code(s): C09K8/584
Abstract: this disclosure relates to thermal stimuli-responsive surfactant mixtures useful for reducing water/oil interfacial tension at high temperatures and increasing water/oil interfacial tension at low temperatures. the disclosure also relates to methods of using the surfactant mixtures for enhanced oil recovery applications.
Inventor(s): Abdullah S. ALHUSSAIN of As Saffaniyah (SA) for saudi arabian oil company, Shahid M. ALHINDI of As Saffaniyah (SA) for saudi arabian oil company, Mogib M. ALSHAHRANI of As Saffaniyah (SA) for saudi arabian oil company
IPC Code(s): C10G33/08, B01D17/02, B01D17/12, C02F1/00, C02F1/40, C10G33/06
CPC Code(s): C10G33/08
Abstract: a gas-oil separation plant (gosp) system includes a crude inlet line for a fluid inlet stream. an inlet pressure control valve is coupled within the crude inlet line to control a pressure of the fluid inlet stream passing therethrough. a separation vessel is provided downstream of the inlet pressure control valve and is operable to separate a water component from the inlet fluid stream. the gosp system further includes a water line coupled to the separation vessel and a water draw-off pump including a shaft operably rotatable to draw the water component through the water line from the separation vessel. a turbine is coupled upstream of the inlet pressure control valve and includes a turbine shaft rotatable in response to the inlet fluid stream flowing therethrough. the turbine shaft is operably coupled to the pump shaft such that the pump shaft rotates in response to rotation of the turbine shaft.
Inventor(s): Miao Sun of Dhahran (SA) for saudi arabian oil company, Noor Al-Mana of Al Khobar (SA) for saudi arabian oil company, Lianhui Ding of Dhahran (SA) for saudi arabian oil company, Eman Zaki Albaher of Qatif (SA) for saudi arabian oil company, Guanghui Zhu of Dhahran (SA) for saudi arabian oil company, Ke Zhang of Winchester MA (US) for saudi arabian oil company
IPC Code(s): C10G47/12, B01J21/04, B01J21/06, B01J23/00, B01J23/745, B01J23/83, B01J23/883, B01J35/02, B01J35/10, B01J37/00, B01J37/28, C10G47/04, C10G69/06
CPC Code(s): C10G47/12
Abstract: systems and method for upgrading pyrolysis oil to produce greater value aromatic compounds includes combining heavy pyrolysis oil and a diluent to produce the pyrolysis oil feed withleast 30 wt. % multi-ring aromatic compounds boiling at greater than 360� c. the systems and methods include passing the pyrolysis oil feed to a fixed bed reactor having a hydrocracking catalyst that includes pellets having a particle size greater than or equal to 0.1 millimeter. the hydrocracking catalyst is a mixed metal oxide catalyst that includes a binder and mixed metal oxide particles or a supported metal oxide catalyst that includes molybdenum oxide and nickel oxide supported on a catalyst support material comprising a large-pore alumina. the methods may further include contacting the pyrolysis oil feed with the hydrogen in the presence of the hydrocracking catalyst at reaction conditions in the fixed bed reactor to produce a reaction effluent.
Inventor(s): Maher Maqbool Shariff of Dhahran (SA) for saudi arabian oil company, Sebastien A. Duval of Dhahran (SA) for saudi arabian oil company, Simone Less of Dhahran (SA) for saudi arabian oil company, Olanrewaju Malcolm Oshinowo of Dhahran (SA) for saudi arabian oil company
IPC Code(s): C10G53/06
CPC Code(s): C10G53/06
Abstract: a side-stream is separated from an oil phase stream that is discharged from a crude oil separator in a gas-oil separation plant. the side-stream contains water and oil. at least a portion of the oil phase stream that is discharged from the crude oil separator in the gas-oil separation plant is flowed to a desalter in the gas-oil separation plant. an electric field is applied across the side-stream to coalesce aqueous droplets present in the side-stream to form an aqueous phase. the aqueous phase is separated from the oil of the side-stream. at least a portion of the aqueous phase is evaporated to form a wastewater phase and a vapor phase. at least a portion of the vapor phase is condensed to produce a wash water. the wash water is flowed to the desalter. the wash water can be referred to washing water or dilution water.
Inventor(s): Miao Sun of Dhahran (SA) for saudi arabian oil company, Lianhui Ding of Dhahran (SA) for saudi arabian oil company, Noor Al-Mana of Al Khobar (SA) for saudi arabian oil company, Mohammed I. AlAmer of Dammam (SA) for saudi arabian oil company, Sameer A. Ghamdi of Dhahran (SA) for saudi arabian oil company
IPC Code(s): C10G65/10, B01J21/04, B01J21/06, B01J23/00, B01J23/745, B01J23/83, B01J29/04, B01J29/16, B01J29/78, B01J35/02, B01J37/00, B01J37/02
CPC Code(s): C10G65/10
Abstract: a method for upgrading pyrolysis oil includes contacting a pyrolysis oil feed with hydrogen in the presence of a mixed metal oxide catalyst in a first fixed-bed reactor, where: the pyrolysis oil feed comprises multi-ring aromatic compounds comprising greater than or equal to sixteen carbon atoms, and contacting the pyrolysis oil feed with hydrogen in the presence of the mixed metal oxide catalyst in the first fixed-bed reactor to convert at least a portion of the multi-ring aromatic compounds in the pyrolysis oil feed to di-aromatic compounds, tri-aromatic compounds, or both, passing an intermediate stream comprising the di-aromatic compounds, tri-aromatic compounds, or both to a second fixed-bed reactor downstream of the first fixed-bed reactor; and contacting the intermediate stream with hydrogen in the presence of a mesoporous supported metal catalyst in a second fixed-bed reactor.
20250027371. HYBRID MILLING HIGH POWER LASER TOOL_simplified_abstract_(saudi arabian oil company)
Inventor(s): Abdullah M. Alharith of Dhahran (SA) for saudi arabian oil company
IPC Code(s): E21B7/28, E21B7/15
CPC Code(s): E21B7/28
Abstract: a downhole tool includes a milling rotary body, a fiber optic cable extending through the milling rotary body, one or more milling knives extending outwardly from the milling rotary body at an end of the milling rotary body, and a laser head extending from the second end of the milling rotary body. the fiber optic cable is connected to the laser head, and the laser head is configured to rotate about a central axis of the milling rotary body.
Inventor(s): Ayman R. Al-Nakhli of Dammam (SA) for saudi arabian oil company, Olalekan Alade of Dhahran (SA) for saudi arabian oil company, Mohamed Mahmoud of Dhahran (SA) for saudi arabian oil company
IPC Code(s): E21B21/06, C09K8/16
CPC Code(s): E21B21/062
Abstract: described is a method for mitigating particulate settling in a drilling fluid. a set of rheological data for a first drilling fluid is obtained, where the set of rheological data includes a measured viscosity value. a thermal effect of the measured viscosity value is determined, and a predicted viscosity value for a second drilling fluid having a similar composition as the first drilling fluid is determined based on the thermal effect. based on the predicted viscosity value, an amount of a thermochemical fluid to add to the second drilling fluid is determined to increase a temperature and a viscosity of the second drilling fluid such that settling of a particulate is mitigated.
Inventor(s): Ali Hashim Alabdulmuhsin of Alahsa (SA) for saudi arabian oil company, Abdulrahman Almulhim of Alahsa (SA) for saudi arabian oil company
IPC Code(s): E21B33/13, E21B43/27, E21B47/09
CPC Code(s): E21B33/13
Abstract: a method for diversion in multistage fracturing, comprising the steps of identifying an isolation failure between stages in a wellbore due to a point of failure; pumping a diversion mixture into the wellbore; plugging the point of failure with the diversion mixture; pumping a spacer fluid through the wellbore; and pumping an acid stimulation fluid through the wellbore to a frac sleeve upstream of the point of failure.
Inventor(s): Jun GAO of Dhahran (SA) for saudi arabian oil company, Hyung T. KWAK of Dhahran (SA) for saudi arabian oil company, Abdulaziz S. AL-QASIM of Dhahran (SA) for saudi arabian oil company, Ali ALYOUSEF of Dhahran (SA) for saudi arabian oil company
IPC Code(s): E21B41/00, E21B43/16
CPC Code(s): E21B41/0064
Abstract: hydrocarbon extraction may be coupled with subterranean hydrogen storage. for example, a method of hydrocarbon extraction and hydrogen storage may include: introducing carbon dioxide into a subterranean formation via one or more injection wells, the subterranean formation containing hydrocarbons and optionally water; mobilizing at least a portion of the hydrocarbons in a hydrocarbon-bearing zone of the subterranean formation with the carbon dioxide; after mobilization with the carbon dioxide, producing the hydrocarbons from the hydrocarbon-bearing zone of the subterranean formation via one or more production wells; introducing hydrogen to the subterranean formation via the one or more injection wells, the hydrogen displacing the carbon dioxide downward in the subterranean formation; storing the hydrogen in the subterranean formation above the carbon dioxide; and producing at least a portion of the hydrogen from the subterranean formation via the one or more production wells, the one or more injection wells, or any combination thereof.
Inventor(s): Rajesh Kumar Saini of Cypress TX (US) for saudi arabian oil company, Amy J. Cairns of Houston TX (US) for saudi arabian oil company, Shitong Sherry Zhu of Waban MA (US) for saudi arabian oil company, Ayrat Gizzatov of Winchester MA (US) for saudi arabian oil company, Wei Wang of Quincy MA (US) for saudi arabian oil company, Mohammed Sayed of Katy TX (US) for saudi arabian oil company, Hooisweng Ow of Woburn MA (US) for saudi arabian oil company
IPC Code(s): E21B47/11, C09K8/80
CPC Code(s): E21B47/11
Abstract: described is a polymer-based well tracer. the polymer-based well tracer is a fluoropolymer having a fluorinated group. the fluoropolymer may be formed into a particle, a coating for proppant particulates, or encapsulated in a polymeric resin. upon degradation or hydrolysis of the fluoropolymer, the fluorinated group having a fluorinated compound is released within the well.
Inventor(s): Mohamed SOUA of Dhahran (SA) for saudi arabian oil company, Husinsyah SITEPU of Dhahran (SA) for saudi arabian oil company
IPC Code(s): G01N23/207, G01N23/2055
CPC Code(s): G01N23/207
Abstract: methods and tools to identify a type of sedimentary system from an xrd pattern. the method includes applying x-rays to a sample to obtain diffraction pattern data, and calculating a march-dollase preferred orientation factor of a crystallographic plane of the sample based on the diffraction pattern data. the method further includes classifying the calculated march-dollase preferred orientation factor to identify a type of clastic sedimentary system corresponding to the sample. a rapid sediment analyzer tool includes an x-ray diffraction device and an application having a march-dollase preferred orientation factor calculator and a classifier. the display device is configured to display the identified type of clastic sedimentary system.
Inventor(s): Weihua Wang of Dhahran (SA) for saudi arabian oil company, Yunsheng Li of Dhahran (SA) for saudi arabian oil company, Ibrahim A. Makrami of Dhahran (SA) for saudi arabian oil company, Maan A. Hawi of Dhahran (SA) for saudi arabian oil company
IPC Code(s): G01V11/00, E21B44/00, E21B49/00
CPC Code(s): G01V11/002
Abstract: systems and methods for generating synthetic borehole image logs include logging rate of penetration (rop) data, resistivity data, and gamma ray data while drilling a borehole in a subsurface formation to generate logged data. the generating includes determining an effective dip angle of the subsurface formation along the borehole and generating a depth shift table based on the effective dip angle and a well deviation angle, the well deviation angle being between the borehole and a vertical reference. datasets are generated based on the rop data, resistivity data, and gamma ray data, the generated datasets having higher sampling rates than the logged data. synthetic borehole images are generated based on the generated datasets and the depth shift table, and the synthetic borehole images are oriented with respect to a reference point of the borehole.
Inventor(s): Sihai Zhang of Dhahran (SA) for saudi arabian oil company, Anren Li of Dhahran (SA) for saudi arabian oil company
IPC Code(s): G01V11/00, E21B25/00, E21B44/00, E21B47/002, E21B49/00
CPC Code(s): G01V11/002
Abstract: systems and methods for identifying an unconformity in a subsurface formation include collecting well log measurements from a set of wells in the subsurface formation and collecting core samples from a first subset of the set of wells. a second subset of wells without lithology contrast is identified. fractures and bedding planes are characterized in borehole image logs for wells in the second subset. for wells in the first and second subsets, the location of the unconformity is determined based on the core samples, and correlations are generated between the determined location of the unconformity and the identified fractures and bedding planes in the borehole image logs. for wells in the second subset and not in the first subset: the location of the unconformity is determined based on the identified fractures, bedding planes, and generated correlations. an unconformity surface is generated.
Inventor(s): Doru Catalin Turcan of Dhahran (SA) for saudi arabian oil company, Saad Hamad Dossary of Dhahran (SA) for saudi arabian oil company, Amer Abdulrahman Alamer of Dammam (SA) for saudi arabian oil company, Fawaz Saleh Alshammary of Dammam (SA) for saudi arabian oil company
IPC Code(s): G05B23/02, G01M1/22
CPC Code(s): G05B23/024
Abstract: a computer-implemented method includes: accessing streams of data encoding measurements taken at one or more pieces of rotating equipment; accessing a database encoding past measurement records from the one or more pieces of rotating equipment; identifying, using a machine learning (ml) module, relevant ranges of measurement values for at least a portion of the measurements, wherein the ml module is adapted to predict the relevant ranges of measurement values; extracting a subset of the at least a portion of the measurements, wherein the subset is identified by the ml module as more capable of distinguishing between normal and abnormal operating conditions for the one or more pieces of rotating equipment; and generating, on a display device, at least one plot based on the subset within the relevant ranges of measurement values such that the one or more pieces of rotating equipment are monitored continuously for deviations from the normal operating conditions.
Inventor(s): Shadi M. HAZMI of Udhailiyah (SA) for saudi arabian oil company, Tarek D. ABOGHONIEM of Udhailiyah (SA) for saudi arabian oil company, Mohannad M. SHAHRANI of Udhiliyah (SA) for saudi arabian oil company, Yahya A. ALI of Udhiliyah (SA) for saudi arabian oil company
IPC Code(s): G05B23/02
CPC Code(s): G05B23/0254
Abstract: a gas monitoring detector healthfulness tracking system including an analyzer operable to apply an artificial intelligence (ai) model to determine a characteristic response trend signature from received preventative maintenance (pm) data and maintenance tracking data, an anomaly detector operable to detect an anomalous field response characteristic of a gas monitoring detector from received pm field data, the anomalous field response characteristic representing a variance from the characteristic response trend signature, a recommender providing a recommendation to 1) replace the gas monitoring detector if the variance exceeds a predetermined value, 2) re-test the gas monitoring detector if the variance does not match and does not exceed the predetermined value, and a report generator for reporting the recommendation of the recommender.
SAUDI ARABIAN OIL COMPANY patent applications on January 23rd, 2025
- SAUDI ARABIAN OIL COMPANY
- B01F23/231
- B01F35/90
- CPC B01F23/23105
- Saudi arabian oil company
- C09K8/584
- CPC C09K8/584
- C10G33/08
- B01D17/02
- B01D17/12
- C02F1/00
- C02F1/40
- C10G33/06
- CPC C10G33/08
- C10G47/12
- B01J21/04
- B01J21/06
- B01J23/00
- B01J23/745
- B01J23/83
- B01J23/883
- B01J35/02
- B01J35/10
- B01J37/00
- B01J37/28
- C10G47/04
- C10G69/06
- CPC C10G47/12
- C10G53/06
- CPC C10G53/06
- C10G65/10
- B01J29/04
- B01J29/16
- B01J29/78
- B01J37/02
- CPC C10G65/10
- E21B7/28
- E21B7/15
- CPC E21B7/28
- E21B21/06
- C09K8/16
- CPC E21B21/062
- E21B33/13
- E21B43/27
- E21B47/09
- CPC E21B33/13
- E21B41/00
- E21B43/16
- CPC E21B41/0064
- E21B47/11
- C09K8/80
- CPC E21B47/11
- G01N23/207
- G01N23/2055
- CPC G01N23/207
- G01V11/00
- E21B44/00
- E21B49/00
- CPC G01V11/002
- E21B25/00
- E21B47/002
- G05B23/02
- G01M1/22
- CPC G05B23/024
- CPC G05B23/0254
