SAUDI ARABIAN OIL COMPANY patent applications on April 3rd, 2025
Patent Applications by SAUDI ARABIAN OIL COMPANY on April 3rd, 2025
SAUDI ARABIAN OIL COMPANY: 22 patent applications
SAUDI ARABIAN OIL COMPANY has applied for patents in the areas of E21B49/08 (2), E21B47/11 (2), G06Q10/0631 (2), E21B47/10 (2), E21B49/00 (2) B01D45/08 (1), E21B49/088 (1), G06F16/178 (1), G05B13/048 (1), G01V20/00 (1)
With keywords such as: data, fluid, flow, production, gas, sub, configured, within, body, and wellbore in patent application abstracts.
Patent Applications by SAUDI ARABIAN OIL COMPANY
20250108321. STATIC STEAM LINE DRIER (SSLD) DEVICE_simplified_abstract_(saudi arabian oil company)
Inventor(s): Ramis Arslanov of Dhahran SA for saudi arabian oil company, Mishal Alsaiari of Abqaiq SA for saudi arabian oil company
IPC Code(s): B01D45/08, B01D29/11, B01D35/16, B01D45/18
CPC Code(s): B01D45/08
Abstract: a static steam line drier (ssld) has a body, including a main flow path, a trap section proximate an upstream end of the ssld body, and a constriction section proximate a downstream end of the ssld body. the constriction section includes a seat around a constriction bore opening. a flow plug controller movably extends through a wall of the ssld body, where the flow plug controller includes an external end located external to an outer surface of the ssld body and a plug on an internal end located within the main flow path. the flow plug controller is oriented to allow the plug to be seated on the seat in the constriction section. the ssld body also has a debris collector member extending from the trap section of the ssld which includes a filter chamber and a blowdown valve provided at the collector member outlet.
Inventor(s): Ali Amer of Hofuf SA for saudi arabian oil company, Mohammad Almusaiteer of Udhailiyah SA for saudi arabian oil company, Ayman Busaad of Hofuf SA for saudi arabian oil company, Abdullah Alrushaydan of Hofuf SA for saudi arabian oil company, Kishor Shirsat of Udhailiyah SA for saudi arabian oil company, Ali Alkhalaf of Dhahran SA for saudi arabian oil company
IPC Code(s): B01D53/04, B01D53/26
CPC Code(s): B01D53/0462
Abstract: a system for dehydrating a natural gas or other hydrocarbons. the dehydration system includes a vessel containing a bed of adsorbent particles for adsorbing water from a wet hydrocarbon stream, producing a dried hydrocarbon stream. the system also includes an electric heater having a flow line for providing a regeneration gas to the heater, heating elements for directly or indirectly electrically heating the regeneration gas, and a flow line for providing heated regeneration gas for regenerating the adsorbent to the vessel. a terminal box includes electrical connections for providing electrical energy to the heating elements. the system further includes an accumulation prevention system, including an inlet for providing purge gas to the terminal box, a purged gas outlet for receiving a purged gas from the terminal box, and a sample line. a lower explosion limit detector is provided for measuring a composition of the purged gas in the sample line.
20250108901. FLOATING POWER GENERATION_simplified_abstract_(saudi arabian oil company)
Inventor(s): Mustafa Karakaya of Dhahran SA for saudi arabian oil company, Sohrat Baki of Dhahran SA for saudi arabian oil company, Emre Cenker of Dhahran SA for saudi arabian oil company, Coruh Celikbilek of Dhahran SA for saudi arabian oil company
IPC Code(s): B63H21/00, B63B35/44, H01M8/22
CPC Code(s): B63H21/00
Abstract: a floating power generation system includes a marine vessel, an energy conversion system mounted on the marine vessel, and a fuel storage system mounted on the marine vessel. the energy conversion system includes a hydrogen fuel cell, and the fuel storage system is fluidly connected to the energy conversion system. the fuel storage system supplies hydrogen fuel to the hydrogen fuel cell of the energy conversion system.
Inventor(s): Sehmus OZDEN of Houston TX US for saudi arabian oil company, Ashok SANTRA of The Woodlands TX US for saudi arabian oil company, Feng LIANG of Houston TX US for saudi arabian oil company, Atieh H. ABU RAQABAH of Houston TX US for saudi arabian oil company
IPC Code(s): C01B3/04
CPC Code(s): C01B3/047
Abstract: hydrogen may be produced from ammonia by catalytic reaction. for example, a method of hydrogen production may include: introducing ammonia to a reactor, wherein the reactor includes therein a catalyst, wherein the catalyst includes a high entropy alloy, and wherein the high entropy alloy has an entropy, s, such that s≥11.31 j kmol; reacting the ammonia in the presence of the catalyst to form hydrogen gas and nitrogen gas; and separating the hydrogen gas from the nitrogen gas to produce a hydrogen stream including the hydrogen gas from the reactor.
Inventor(s): Emmanouil Spyropoulos of Dhahran SA for saudi arabian oil company, Mohammed Al Mehthel of Dhahran SA for saudi arabian oil company, Mohammed Maslehuddin of Dhahran SA for saudi arabian oil company, Sami A. Al Abduljabbar of Dhahran SA for saudi arabian oil company, Saleh A. Wohaibi of Dammam SA for saudi arabian oil company, Mohammed Khaliluddin of Al Khobar SA for saudi arabian oil company
IPC Code(s): C09K17/44, E01C7/14, E01C7/30, E02B7/08, E02D17/20, E02D27/00
CPC Code(s): C09K17/44
Abstract: the disclosure relates to compositions that include sand mixed with a stabilizing agent that includes i) hydrocarbon derivative fibers and cement, ii) acrylic-based polymer emulsions, or iii) hydrocarbon derivative fibers and acrylic-based polymer emulsions, as well as related methods.
Inventor(s): Maxim Orlov of Moscow RU for saudi arabian oil company, Timur Zharnikov of Moscow RU for saudi arabian oil company, Abdullah S. Al-Yami of Dhahran SA for saudi arabian oil company
IPC Code(s): E21B21/00, E21B47/117
CPC Code(s): E21B21/003
Abstract: a system for treating a lost circulation zone within a wellbore that includes a treatment sub is provided. the treatment sub includes a communications device, an internal fluid conduit configured to convey a wellbore fluid through the treatment sub and the interior of the treatment sub is between a sub exterior surface and the internal fluid conduit the treatment sub also includes a radiation source configured to generate a form of radiation within a wellbore fluid. further provided are methods of using the system to treat loss circulation zones.
20250109648. THROUGH-TUBING PLUG_simplified_abstract_(saudi arabian oil company)
Inventor(s): Ali AL SHAIKH of Dhahran SA for saudi arabian oil company, Abdullrohman K. ALARFAJ of Dhahran SA for saudi arabian oil company, Miguel Augusto AVILA ROMERO of Dhahran SA for saudi arabian oil company
IPC Code(s): E21B33/12, E21B31/16, E21B34/14
CPC Code(s): E21B33/12
Abstract: a through-tubing plug includes an outer mandrel defining a first uphole port and a first downhole port, an inner mandrel received within the outer mandrel and defining a second uphole port and a second downhole port, a plug core provided on the outer mandrel and providing a landing profile sealingly engageable with a landing receptor provided within completion tubing extended into a wellbore, and one or more sets of wipers made of a foam material and secured to the outer mandrel distal to the plug core. the inner mandrel is movable between an unactuated state, where the first and second uphole ports are misaligned and the first and second downhole ports are misaligned, and an actuated state, where the first and second uphole ports are aligned and the first and second downhole ports are aligned to thereby allow fluid flow through the through-tubing plug.
Inventor(s): Keshabananda Baruah of Abqaiq SA for saudi arabian oil company, Sanjiv Kumar of Dhanbad IN for saudi arabian oil company, Mansour M. Almaghlouth of Dammam SA for saudi arabian oil company
IPC Code(s): E21B34/08
CPC Code(s): E21B34/08
Abstract: an apparatus includes a pocket portion disposed on production tubing, the pocket portion defining a volume therewithin, wherein the volume is in fluid communication with an interior of the production tubing. the pocket portion includes a valve arrangement that permits unidirectional fluid flow between a tubing-casing annulus and the volume. the apparatus also includes a pressure bleeder configured to be selectively mounted within the pocket portion. the pressure bleeder is configured to permit fluid flow between the valve arrangement and the interior of the production tubing only above a predetermined threshold pressure. a related method includes: providing the pocket portion and valve arrangement; mounting the pressure bleeder within the pocket portion; and, with the pressure bleeder, permitting fluid flow between the valve arrangement and the interior of the production tubing only above a predetermined threshold pressure.
20250109654. MAINTAINING A TUBING HANGER PROFILE_simplified_abstract_(saudi arabian oil company)
Inventor(s): Mustafa Karakaya of Izmir TR for saudi arabian oil company
IPC Code(s): E21B37/00, E21B34/02
CPC Code(s): E21B37/00
Abstract: a valve lubrication tool includes a valve rod that includes a hollow tube with a bore that extends there through; and a valve profile lubricating assembly. the valve profile lubricating assembly includes a jetting nozzle coupled to the hollow tube. the jetting nozzle includes at least one fluid outlet configured to release a jet of a pressurized fluid that is circulated through the bore of the hollow tube to the jetting nozzle.
Inventor(s): Abdullah M. Bin Ziad of Udhailiyah SA for saudi arabian oil company, Abdulmajeed M. Alotaibi of Udhailiyah SA for saudi arabian oil company, Fahad O Alshammari of Udhailiyah SA for saudi arabian oil company
IPC Code(s): E21B43/30, E21B49/00
CPC Code(s): E21B43/30
Abstract: a computer implemented method for estimating a gas rate using a generative adversarial network is described. the method includes inputting training data to a generator. the method includes providing input to a discriminator, the input comprising the generated data samples and real data samples, wherein the discriminator outputs a binary classification of the input. additionally, the method includes training the discriminator and the generator by evaluating the output of the discriminator, and estimating gas rates using the trained generator.
Inventor(s): Chidirim Enoch Ejim of Dhahran SA for saudi arabian oil company, Hattan M. Banjar of Dammam SA for saudi arabian oil company
IPC Code(s): E21B47/10, E21B43/12, E21B47/008, E21B47/07, E21B47/13, H04Q9/00
CPC Code(s): E21B47/10
Abstract: a method to determine downhole fluid flow rate of a wellbore is disclosed. the method includes generating, using sensors of a discharge sub and a suction sub coupled to an electrical submersible pump (esp), monitoring data of the esp that is suspended in the wellbore via a production tubing to facilitate well fluid flow to the earth's surface through the production tubing, wirelessly transmitting, using wireless transmitters of the discharge sub and the suction sub, the monitoring data to a monitoring sub coupled to an electrical motor of the esp, transmitting, by the monitoring sub to a downhole flow rate analyzer at the earth's surface, monitoring data wirelessly received from the discharge sub and the suction sub, and determining, by the downhole flow rate analyzer, the downhole flow rate of the well fluid by analyzing the monitoring data.
Inventor(s): Keshabananda Baruah of Abqaiq SA for saudi arabian oil company, Hisham I. Al-Shuwaikhat of Dammam SA for saudi arabian oil company
IPC Code(s): E21B47/11, E21B47/117
CPC Code(s): E21B47/11
Abstract: described is a system for identifying a leak in a casing-casing annulus of a well. the system includes a chemical tracer spool positioned at a casing-casing annulus of a wellbore. the chemical tracer spool includes a porous layer with a polymer media and a chemical tracer molecule embedded in the porous layer. an inner surface of the porous layer defines a flow channel configured to allow fluid flow of a fluid. the chemical tracer molecule has a chemical affinity for oil, gas, or water, and is configured to diffuse into the fluid flow. a collection point is configured to collect a sample of the fluid.
Inventor(s): Qasim Sahu of Sayhat SA for saudi arabian oil company, Rajendra Arunkumar Kalgaonkar of Dhahran SA for saudi arabian oil company, Vera Solovyeva of Moscow RU for saudi arabian oil company
IPC Code(s): E21B49/08, E21B47/11
CPC Code(s): E21B49/088
Abstract: a system and a method for determining hydrocarbon production from multiple subterranean formations. different nanotag tracers are sequentially injected into subterranean production zones fluidly coupled to a wellbore extending from a surface of the earth through the subterranean production zones. the respective nanotag tracers are injected into a respective subterranean production zone. the different nanotag tracers and production fluids contained within the subterranean production zones are produced through the wellbore to the surface. a turbidity of the production fluids containing the different nanotag tracers is determined at the surface. a quantity of each of the one or more different nanotag tracers from each of the subterranean production zones in the production fluids is determined. based on the turbidity of the production fluids and the quantity of the different nanotag tracers, a total oil production rate from the subterranean production zones is determined.
20250109817. JETTING-BASED PIPELINE SCRAPER_simplified_abstract_(saudi arabian oil company)
Inventor(s): Faisal Mohammed Alissa of Dammam SA for saudi arabian oil company, Yazeed Alamro of Riyadh SA for saudi arabian oil company, Mohammad A. Aleissa of Safwa SA for saudi arabian oil company, Omar Firas Ashi of Jeddah SA for saudi arabian oil company
IPC Code(s): F16L55/36, F16L55/40, F16L55/46, F16L101/12
CPC Code(s): F16L55/36
Abstract: systems include a device and a pipeline. the device includes a body. the body includes jetting elements and a sealing disc. the jetting elements include a hose, an opening, channels, and nozzles. the jetting elements are configured to direct pressurized fluid through the body for purposes of cleaning and propelling the device along the pipeline. the sealing discs are configured to maintain a seal between the body of the device and the inside wall of the pipeline.
20250109828. SWINGING TOOL HOLDER_simplified_abstract_(saudi arabian oil company)
Inventor(s): Pravinkumar Patil of Udhailiyah SA for saudi arabian oil company, Zakaria Musa of Udhailiyah SA for saudi arabian oil company, Jamal H. Khalaifa of Al Mubarraz SA for saudi arabian oil company, Abdulrahman Takrouni of Al Mubarraz SA for saudi arabian oil company
IPC Code(s): F17C13/06, F16M11/06, F16M13/02
CPC Code(s): F17C13/06
Abstract: in general, in one aspect, embodiments disclosed herein relate to a system for supporting a tool in a manway. the system includes a tool holding device. the tool holding device includes a holder plate, a hinge attached to the holder plate, a holder arm attached to the hinge, a clamp attached to the holder arm, and a resting arm attached to the clamp. the holder plate includes a first connector. the hinge permits swinging the tool holding device into and out of a manway. a second connector is included on the manway to be compatible with the first connector.
Inventor(s): Peter BIRKLE of Dhahran SA for saudi arabian oil company, Vyacheslav Viadislavovich GROKHOVSKY of Moscow RU for saudi arabian oil company, Maxim Viadimirovich ORLOV of Moscow SA for saudi arabian oil company, Waleed SAEED of Dhahran SA for saudi arabian oil company
IPC Code(s): G01N33/24, G06F18/2321
CPC Code(s): G01N33/24
Abstract: a method for determining exploration potential of a prospect oil field includes determining microseepage at the prospect oil field by performing sequential extraction of trace elements (te) and/or heavy metals (hm) from soil samples obtained at substantially surface level of the prospect oil field and dry and proven fields, visualizing results of the sequential extraction in isoline maps, using statistical clustering based on a machine learning model to detect concentration anomalies of the extracted trace elements (te) and/or heavy metals (hm) in the isoline maps of the visualized results, correlating detected concentration anomalies among the prospect, dry and proven fields, and recommending for or against exploration of the prospect oil field depending on whether the concentration anomalies of the prospect field correlate with those of the proven field or the dry field.
Inventor(s): Mohammed Boudjatit of El Kennar DZ for saudi arabian oil company, Abdulhameed Azzouni of Dammam SA for saudi arabian oil company, Ali Al Sultan of Dammam SA for saudi arabian oil company
IPC Code(s): G01N33/24, E21B49/00, G01N1/04, G01N15/08, G01N24/08, G01N25/20, G01V3/20
CPC Code(s): G01N33/241
Abstract: methods and systems may include obtaining, from a rock coring system, rock samples, determining, using a nuclear magnetic resonance system, a hydrocarbon-filled porosity for each rock sample, determining, using a pyrolysis system, a concentration of hydrocarbons within each rock sample, and determining, using regression analysis, a relationship between the concentration of hydrocarbons and the hydrocarbon-filled porosity. the methods and systems may further include obtaining, from a well logging system, well logs along a well that penetrates an in situ rock, determining a total hydrocarbon-filled porosity for the in situ rock using the well logs, and obtaining the relationship. the methods and systems may still further include determining an in situ concentration of hydrocarbons within the in situ rock using the relationship and the total hydrocarbon-filled porosity and determining a recovery factor for the in situ rock based on the in situ concentration of hydrocarbons.
Inventor(s): Klemens Katterbauer of Dhahran SA for saudi arabian oil company, Abdallah A. AlShehri of Dhahran SA for saudi arabian oil company, Abdulaziz Al Qasim of Dammam SA for saudi arabian oil company, Ali Abdullah AlYousif of Dhahran SA for saudi arabian oil company
IPC Code(s): G01N33/28, E21B43/34, E21B47/10, E21B47/12, E21B49/08, G01F1/05, G01N1/40
CPC Code(s): G01N33/2835
Abstract: described is a lithium logging tool. the lithium logging tool includes a sampling and separation module, a lithium concentration module, a microprocessor, and a power module. the sampling and separation module obtains a sample of a fluid from a wellbore and separates hydrocarbons from the sample. the lithium concentration module extracts lithium from the sample. the microprocessor analyzes data related to the fluid in periodic intervals and determines a concentration of lithium in the sample. the power module is configured for providing power to the sampling and separation module and the microprocessor.
Inventor(s): Saleh M. Badawood of Dhahran SA for saudi arabian oil company, Miatham Adnan Al Saleh of Dhahran SA for saudi arabian oil company, Ali Hassan Alabdrabalnabi of Al Qatif SA for saudi arabian oil company
IPC Code(s): G01V99/00, G06F30/27
CPC Code(s): G01V20/00
Abstract: systems and methods include a computer-implemented method for predicting depositional environments in regional geology using wireline logs, core interpretation, and machine learning algorithms. data preprocessing is performed on core data and wireline data received from wells that have been drilled to generate pre-processed core and wireline data. the pre-processed core and wireline data are split into a training dataset and at least one testing dataset. a model is generated using the pre-processed core and wireline data, and models relationships between core-based depositional settings and wireline logs for the wells. feature engineering is performed on the pre-processed core and wireline data to identify significant features that contribute to the model. the model is trained using the training dataset and by weighting the significant features. the model is evaluated using machine learning on the testing dataset. depositional settings are predicted using the model and results of the evaluating.
Inventor(s): Kamarul Ariffin Amminudin of Dhahran SA for saudi arabian oil company, Abdullah A. Alzahrani of Riyadh SA for saudi arabian oil company
IPC Code(s): G05B13/04, G06Q10/0631
CPC Code(s): G05B13/048
Abstract: a method for developing a model to optimize operations for a cogen facility is provided. the method includes collecting data on the operation of the cogen facility and creating an objective function to minimize total operating cost of the cogen facility, wherein the objective function is based, at least in part, on a fuel cost and a net power cost. an output is provided from the objective function, wherein the output is used to control a mixture of gas turbines used in the cogen facility and steam generation rates.
Inventor(s): Bandar Abdullah Albaiz of Dhahran SA for saudi arabian oil company
IPC Code(s): G06F16/178, G06F16/11
CPC Code(s): G06F16/178
Abstract: a method is disclosed for processing synchronization requests in a cloud storage system provides a file synchronization request priority policy for specific users. in the method, a synchronization request, which includes a user identification (id) and a user file reference, is received from a user device. then, a rule referencing a policy that targets the user id is retrieved. when the synchronization request is from a priority user of the cloud storage system, a priority policy to the synchronization request is applied.
Inventor(s): Faisal F. Alotaibi of Al Jubail SA for saudi arabian oil company, Esra Alhamood of Al Qatif SA for saudi arabian oil company, Rawabi Alkhathlan of Al Khobar SA for saudi arabian oil company
IPC Code(s): G06Q10/0631
CPC Code(s): G06Q10/0631
Abstract: a computer implemented method that enables a data vault methodology for management of decarbonization and circular economy is described. the method includes obtaining decarbonization data and circular economy data associated with a capital project of an organization in a database and storing the decarbonization data and the circular economy data in a standardized format. the method also includes updating the decarbonization data and the circular economy data of the organization in real time, and transmitting data visualizations of the updated decarbonization data and the updated circular economy data to users over a network in real time.
SAUDI ARABIAN OIL COMPANY patent applications on April 3rd, 2025
- SAUDI ARABIAN OIL COMPANY
- B01D45/08
- B01D29/11
- B01D35/16
- B01D45/18
- CPC B01D45/08
- Saudi arabian oil company
- B01D53/04
- B01D53/26
- CPC B01D53/0462
- B63H21/00
- B63B35/44
- H01M8/22
- CPC B63H21/00
- C01B3/04
- CPC C01B3/047
- C09K17/44
- E01C7/14
- E01C7/30
- E02B7/08
- E02D17/20
- E02D27/00
- CPC C09K17/44
- E21B21/00
- E21B47/117
- CPC E21B21/003
- E21B33/12
- E21B31/16
- E21B34/14
- CPC E21B33/12
- E21B34/08
- CPC E21B34/08
- E21B37/00
- E21B34/02
- CPC E21B37/00
- E21B43/30
- E21B49/00
- CPC E21B43/30
- E21B47/10
- E21B43/12
- E21B47/008
- E21B47/07
- E21B47/13
- H04Q9/00
- CPC E21B47/10
- E21B47/11
- CPC E21B47/11
- E21B49/08
- CPC E21B49/088
- F16L55/36
- F16L55/40
- F16L55/46
- F16L101/12
- CPC F16L55/36
- F17C13/06
- F16M11/06
- F16M13/02
- CPC F17C13/06
- G01N33/24
- G06F18/2321
- CPC G01N33/24
- G01N1/04
- G01N15/08
- G01N24/08
- G01N25/20
- G01V3/20
- CPC G01N33/241
- G01N33/28
- E21B43/34
- E21B47/12
- G01F1/05
- G01N1/40
- CPC G01N33/2835
- G01V99/00
- G06F30/27
- CPC G01V20/00
- G05B13/04
- G06Q10/0631
- CPC G05B13/048
- G06F16/178
- G06F16/11
- CPC G06F16/178
- CPC G06Q10/0631