Difference between revisions of "SAUDI ARABIAN OIL COMPANY patent applications published on November 30th, 2023"
Wikipatents (talk | contribs) (Creating a new page) |
Wikipatents (talk | contribs) |
||
(20 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
+ | '''Summary of the patent applications from SAUDI ARABIAN OIL COMPANY on November 30th, 2023''' | ||
+ | |||
+ | Saudi Arabian Oil Company (Saudi Aramco) has recently filed several patents related to petroleum reservoir modeling, data leakage prevention, intelligent maintenance services, greenhouse gas emissions reduction, wellbore completion setup, fluid sample analysis, critical micelle concentration measurement, wellbore tubular assembly, drilling operations optimization, and gas flow rate prediction. | ||
+ | |||
+ | Summary: | ||
+ | Saudi Aramco has filed patents for various technologies and methods in the oil and gas industry. These patents cover areas such as reservoir modeling, data leakage prevention, maintenance services, greenhouse gas emissions reduction, wellbore completion setup, fluid sample analysis, critical micelle concentration measurement, wellbore tubular assembly, drilling operations optimization, and gas flow rate prediction. These innovations aim to improve efficiency, reduce costs, and enhance environmental sustainability in oil and gas operations. | ||
+ | |||
+ | Notable Applications: | ||
+ | * Method for dynamically modeling a petroleum reservoir with multiple petroleum wells using an integrated reservoir model. | ||
+ | * Method for improving a data leakage prevention system by suggesting keywords for policy creation. | ||
+ | * Method for intelligent maintenance services using machine learning. | ||
+ | * Method for reducing greenhouse gas emissions in an entity by utilizing historical greenhouse gas emissions data. | ||
+ | * System and method for installing a wellbore completion setup based on the probability within a reservoir. | ||
+ | * Method for analyzing a fluid sample using a cuvette that dissolves in the presence of a specific substance. | ||
+ | * Method for measuring the critical micelle concentration of a surfactant solution. | ||
+ | * Double-layered wellbore tubular assembly for use in oil and gas drilling operations. | ||
+ | * Method for optimizing drilling operations by continuously monitoring drilling parameters in real-time. | ||
+ | * Method for predicting gas flow rates in wells using machine learning techniques. | ||
+ | |||
+ | Overall, Saudi Aramco's recent patent filings demonstrate their commitment to innovation and advancing technologies in the oil and gas industry. These inventions have the potential to enhance operational efficiency, reduce environmental impact, and improve overall performance in the sector. | ||
+ | |||
+ | |||
+ | |||
+ | |||
==Patent applications for SAUDI ARABIAN OIL COMPANY on November 30th, 2023== | ==Patent applications for SAUDI ARABIAN OIL COMPANY on November 30th, 2023== | ||
− | ===DATE SEED POWDER FOR WATER FILTRATION TREATMENT ([[US Patent Application 18449496. DATE SEED POWDER FOR WATER FILTRATION TREATMENT simplified abstract|18449496]])=== | + | ===DATE SEED POWDER FOR WATER FILTRATION TREATMENT ([[US Patent Application 18449496. DATE SEED POWDER FOR WATER FILTRATION TREATMENT simplified abstract (SAUDI ARABIAN OIL COMPANY)|18449496]])=== |
Line 9: | Line 33: | ||
− | ===DYNAMIC BONDS FOR DOUBLE DEGRADATION FEATURES IN POLYMERIC MATERIALS ([[US Patent Application 17824658. DYNAMIC BONDS FOR DOUBLE DEGRADATION FEATURES IN POLYMERIC MATERIALS simplified abstract|17824658]])=== | + | ===DYNAMIC BONDS FOR DOUBLE DEGRADATION FEATURES IN POLYMERIC MATERIALS ([[US Patent Application 17824658. DYNAMIC BONDS FOR DOUBLE DEGRADATION FEATURES IN POLYMERIC MATERIALS simplified abstract (SAUDI ARABIAN OIL COMPANY)|17824658]])=== |
Line 17: | Line 41: | ||
− | ===ORGANOCLAY-FREE INVERT EMULSION OIL-BASED DRILLING FLUIDS WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANE ([[US Patent Application 17827273. ORGANOCLAY-FREE INVERT EMULSION OIL-BASED DRILLING FLUIDS WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANE simplified abstract|17827273]])=== | + | ===ORGANOCLAY-FREE INVERT EMULSION OIL-BASED DRILLING FLUIDS WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANE ([[US Patent Application 17827273. ORGANOCLAY-FREE INVERT EMULSION OIL-BASED DRILLING FLUIDS WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANE simplified abstract (SAUDI ARABIAN OIL COMPANY)|17827273]])=== |
Line 25: | Line 49: | ||
− | ===Viscoelastic-Surfactant Fracturing Fluids Having Oxidizer ([[US Patent Application 18362672. Viscoelastic-Surfactant Fracturing Fluids Having Oxidizer simplified abstract|18362672]])=== | + | ===Viscoelastic-Surfactant Fracturing Fluids Having Oxidizer ([[US Patent Application 18362672. Viscoelastic-Surfactant Fracturing Fluids Having Oxidizer simplified abstract (SAUDI ARABIAN OIL COMPANY)|18362672]])=== |
Line 33: | Line 57: | ||
− | ===SLURRY-PHASE CATALYST COMPOSITIONS IN AROMATIC SOLVENTS AND METHODS OF MAKING ([[US Patent Application 17828463. SLURRY-PHASE CATALYST COMPOSITIONS IN AROMATIC SOLVENTS AND METHODS OF MAKING simplified abstract|17828463]])=== | + | ===SLURRY-PHASE CATALYST COMPOSITIONS IN AROMATIC SOLVENTS AND METHODS OF MAKING ([[US Patent Application 17828463. SLURRY-PHASE CATALYST COMPOSITIONS IN AROMATIC SOLVENTS AND METHODS OF MAKING simplified abstract (SAUDI ARABIAN OIL COMPANY)|17828463]])=== |
Line 41: | Line 65: | ||
− | ===CORROSION INHIBITOR FORMULATIONS BASED ON COMPOUNDS WITH BOTH PYRIDINIUM AND HYDROXY SUBSTITUENTS ([[US Patent Application 18318960. CORROSION INHIBITOR FORMULATIONS BASED ON COMPOUNDS WITH BOTH PYRIDINIUM AND HYDROXY SUBSTITUENTS simplified abstract|18318960]])=== | + | ===CORROSION INHIBITOR FORMULATIONS BASED ON COMPOUNDS WITH BOTH PYRIDINIUM AND HYDROXY SUBSTITUENTS ([[US Patent Application 18318960. CORROSION INHIBITOR FORMULATIONS BASED ON COMPOUNDS WITH BOTH PYRIDINIUM AND HYDROXY SUBSTITUENTS simplified abstract (SAUDI ARABIAN OIL COMPANY)|18318960]])=== |
Line 49: | Line 73: | ||
− | ===APPARATUS TO SIMULATE BIOCIDE PERFORMANCE IN CRUDE PIPELINE CONDITIONS ([[US Patent Application 18340420. APPARATUS TO SIMULATE BIOCIDE PERFORMANCE IN CRUDE PIPELINE CONDITIONS simplified abstract|18340420]])=== | + | ===APPARATUS TO SIMULATE BIOCIDE PERFORMANCE IN CRUDE PIPELINE CONDITIONS ([[US Patent Application 18340420. APPARATUS TO SIMULATE BIOCIDE PERFORMANCE IN CRUDE PIPELINE CONDITIONS simplified abstract (SAUDI ARABIAN OIL COMPANY)|18340420]])=== |
Line 57: | Line 81: | ||
− | ===WHIPSTOCK TO PLUG AND ABANDON WELLBORE BELOW SETTING DEPTH ([[US Patent Application 17751987. WHIPSTOCK TO PLUG AND ABANDON WELLBORE BELOW SETTING DEPTH simplified abstract|17751987]])=== | + | ===WHIPSTOCK TO PLUG AND ABANDON WELLBORE BELOW SETTING DEPTH ([[US Patent Application 17751987. WHIPSTOCK TO PLUG AND ABANDON WELLBORE BELOW SETTING DEPTH simplified abstract (SAUDI ARABIAN OIL COMPANY)|17751987]])=== |
Line 65: | Line 89: | ||
− | ===DISSOLVABLE BALLAST FOR UNTETHERED DOWNHOLE TOOLS ([[US Patent Application 17752176. DISSOLVABLE BALLAST FOR UNTETHERED DOWNHOLE TOOLS simplified abstract|17752176]])=== | + | ===DISSOLVABLE BALLAST FOR UNTETHERED DOWNHOLE TOOLS ([[US Patent Application 17752176. DISSOLVABLE BALLAST FOR UNTETHERED DOWNHOLE TOOLS simplified abstract (SAUDI ARABIAN OIL COMPANY)|17752176]])=== |
Line 73: | Line 97: | ||
− | ===ADJUSTABLE FISHING GRAPPLE TOOL ([[US Patent Application 17804525. ADJUSTABLE FISHING GRAPPLE TOOL simplified abstract|17804525]])=== | + | ===ADJUSTABLE FISHING GRAPPLE TOOL ([[US Patent Application 17804525. ADJUSTABLE FISHING GRAPPLE TOOL simplified abstract (SAUDI ARABIAN OIL COMPANY)|17804525]])=== |
Line 81: | Line 105: | ||
− | ===PRODUCING GAS THROUGH VARIABLE BORE PRODUCTION TUBING ([[US Patent Application 17804764. PRODUCING GAS THROUGH VARIABLE BORE PRODUCTION TUBING simplified abstract|17804764]])=== | + | ===PRODUCING GAS THROUGH VARIABLE BORE PRODUCTION TUBING ([[US Patent Application 17804764. PRODUCING GAS THROUGH VARIABLE BORE PRODUCTION TUBING simplified abstract (SAUDI ARABIAN OIL COMPANY)|17804764]])=== |
Line 89: | Line 113: | ||
− | ===SYSTEMS AND METHODS FOR NOTCHING A TARGET WELLBORE IN A SUBSURFACE FORMATION ([[US Patent Application 17826393. SYSTEMS AND METHODS FOR NOTCHING A TARGET WELLBORE IN A SUBSURFACE FORMATION simplified abstract|17826393]])=== | + | ===SYSTEMS AND METHODS FOR NOTCHING A TARGET WELLBORE IN A SUBSURFACE FORMATION ([[US Patent Application 17826393. SYSTEMS AND METHODS FOR NOTCHING A TARGET WELLBORE IN A SUBSURFACE FORMATION simplified abstract (SAUDI ARABIAN OIL COMPANY)|17826393]])=== |
Line 97: | Line 121: | ||
− | ===MACHINE-LEARNED BASED REAL-TIME VIRTUAL GAS METERING ([[US Patent Application 17804413. MACHINE-LEARNED BASED REAL-TIME VIRTUAL GAS METERING simplified abstract|17804413]])=== | + | ===MACHINE-LEARNED BASED REAL-TIME VIRTUAL GAS METERING ([[US Patent Application 17804413. MACHINE-LEARNED BASED REAL-TIME VIRTUAL GAS METERING simplified abstract (SAUDI ARABIAN OIL COMPANY)|17804413]])=== |
Line 105: | Line 129: | ||
− | ===METHOD AND SYSTEM FOR DETERMINING A GEOLOGICALLY-GUIDED ASSESSMENT FOR MANAGING DRILLING ([[US Patent Application 17664994. METHOD AND SYSTEM FOR DETERMINING A GEOLOGICALLY-GUIDED ASSESSMENT FOR MANAGING DRILLING simplified abstract|17664994]])=== | + | ===METHOD AND SYSTEM FOR DETERMINING A GEOLOGICALLY-GUIDED ASSESSMENT FOR MANAGING DRILLING ([[US Patent Application 17664994. METHOD AND SYSTEM FOR DETERMINING A GEOLOGICALLY-GUIDED ASSESSMENT FOR MANAGING DRILLING simplified abstract (SAUDI ARABIAN OIL COMPANY)|17664994]])=== |
Line 113: | Line 137: | ||
− | ===DOUBLE-LAYERED WELLBORE TUBULAR ASSEMBLY ([[US Patent Application 17751968. DOUBLE-LAYERED WELLBORE TUBULAR ASSEMBLY simplified abstract|17751968]])=== | + | ===DOUBLE-LAYERED WELLBORE TUBULAR ASSEMBLY ([[US Patent Application 17751968. DOUBLE-LAYERED WELLBORE TUBULAR ASSEMBLY simplified abstract (SAUDI ARABIAN OIL COMPANY)|17751968]])=== |
Line 121: | Line 145: | ||
− | ===DETERMINING THE CRITICAL MICELLE CONCENTRATION UTILIZING SEDIMENTATION VELOCITY PROFILES ([[US Patent Application 17827220. DETERMINING THE CRITICAL MICELLE CONCENTRATION UTILIZING SEDIMENTATION VELOCITY PROFILES simplified abstract|17827220]])=== | + | ===DETERMINING THE CRITICAL MICELLE CONCENTRATION UTILIZING SEDIMENTATION VELOCITY PROFILES ([[US Patent Application 17827220. DETERMINING THE CRITICAL MICELLE CONCENTRATION UTILIZING SEDIMENTATION VELOCITY PROFILES simplified abstract (SAUDI ARABIAN OIL COMPANY)|17827220]])=== |
Line 129: | Line 153: | ||
− | ===Method to Detect Diesel in Fluid Samples ([[US Patent Application 17828912. Method to Detect Diesel in Fluid Samples simplified abstract|17828912]])=== | + | ===Method to Detect Diesel in Fluid Samples ([[US Patent Application 17828912. Method to Detect Diesel in Fluid Samples simplified abstract (SAUDI ARABIAN OIL COMPANY)|17828912]])=== |
Line 137: | Line 161: | ||
− | ===NUMERICAL SIMULATION CAPABILITY FOR DETERMINING BLOCKAGES WITHIN A WELLBORE AND WELLBORE COMPLETION SETUPS ([[US Patent Application 17752317. NUMERICAL SIMULATION CAPABILITY FOR DETERMINING BLOCKAGES WITHIN A WELLBORE AND WELLBORE COMPLETION SETUPS simplified abstract|17752317]])=== | + | ===NUMERICAL SIMULATION CAPABILITY FOR DETERMINING BLOCKAGES WITHIN A WELLBORE AND WELLBORE COMPLETION SETUPS ([[US Patent Application 17752317. NUMERICAL SIMULATION CAPABILITY FOR DETERMINING BLOCKAGES WITHIN A WELLBORE AND WELLBORE COMPLETION SETUPS simplified abstract (SAUDI ARABIAN OIL COMPANY)|17752317]])=== |
Line 145: | Line 169: | ||
− | ===GREENHOUSE GAS REDUCTION AUTOMATION PROCESS ([[US Patent Application 17804534. GREENHOUSE GAS REDUCTION AUTOMATION PROCESS simplified abstract|17804534]])=== | + | ===GREENHOUSE GAS REDUCTION AUTOMATION PROCESS ([[US Patent Application 17804534. GREENHOUSE GAS REDUCTION AUTOMATION PROCESS simplified abstract (SAUDI ARABIAN OIL COMPANY)|17804534]])=== |
Line 153: | Line 177: | ||
− | ===METHOD AND SYSTEM FOR INTELLIGENT MAINTENANCE SERVICES USING MACHINE LEARNING ([[US Patent Application 17804038. METHOD AND SYSTEM FOR INTELLIGENT MAINTENANCE SERVICES USING MACHINE LEARNING simplified abstract|17804038]])=== | + | ===METHOD AND SYSTEM FOR INTELLIGENT MAINTENANCE SERVICES USING MACHINE LEARNING ([[US Patent Application 17804038. METHOD AND SYSTEM FOR INTELLIGENT MAINTENANCE SERVICES USING MACHINE LEARNING simplified abstract (SAUDI ARABIAN OIL COMPANY)|17804038]])=== |
Line 161: | Line 185: | ||
− | ===SYSTEM AND METHOD FOR INTEGRATING MACHINE LEARNING IN DATA LEAKAGE DETECTION SOLUTION THROUGH KEYWORD POLICY PREDICTION ([[US Patent Application 17804055. SYSTEM AND METHOD FOR INTEGRATING MACHINE LEARNING IN DATA LEAKAGE DETECTION SOLUTION THROUGH KEYWORD POLICY PREDICTION simplified abstract|17804055]])=== | + | ===SYSTEM AND METHOD FOR INTEGRATING MACHINE LEARNING IN DATA LEAKAGE DETECTION SOLUTION THROUGH KEYWORD POLICY PREDICTION ([[US Patent Application 17804055. SYSTEM AND METHOD FOR INTEGRATING MACHINE LEARNING IN DATA LEAKAGE DETECTION SOLUTION THROUGH KEYWORD POLICY PREDICTION simplified abstract (SAUDI ARABIAN OIL COMPANY)|17804055]])=== |
Line 169: | Line 193: | ||
− | ===AUTOMATED LIVE PROPERTIES COMPONENT UPDATE IN RESERVOIR SIMULATION MODEL ([[US Patent Application 17804043. AUTOMATED LIVE PROPERTIES COMPONENT UPDATE IN RESERVOIR SIMULATION MODEL simplified abstract|17804043]])=== | + | ===AUTOMATED LIVE PROPERTIES COMPONENT UPDATE IN RESERVOIR SIMULATION MODEL ([[US Patent Application 17804043. AUTOMATED LIVE PROPERTIES COMPONENT UPDATE IN RESERVOIR SIMULATION MODEL simplified abstract (SAUDI ARABIAN OIL COMPANY)|17804043]])=== |
Latest revision as of 06:37, 7 December 2023
Summary of the patent applications from SAUDI ARABIAN OIL COMPANY on November 30th, 2023
Saudi Arabian Oil Company (Saudi Aramco) has recently filed several patents related to petroleum reservoir modeling, data leakage prevention, intelligent maintenance services, greenhouse gas emissions reduction, wellbore completion setup, fluid sample analysis, critical micelle concentration measurement, wellbore tubular assembly, drilling operations optimization, and gas flow rate prediction.
Summary: Saudi Aramco has filed patents for various technologies and methods in the oil and gas industry. These patents cover areas such as reservoir modeling, data leakage prevention, maintenance services, greenhouse gas emissions reduction, wellbore completion setup, fluid sample analysis, critical micelle concentration measurement, wellbore tubular assembly, drilling operations optimization, and gas flow rate prediction. These innovations aim to improve efficiency, reduce costs, and enhance environmental sustainability in oil and gas operations.
Notable Applications:
- Method for dynamically modeling a petroleum reservoir with multiple petroleum wells using an integrated reservoir model.
- Method for improving a data leakage prevention system by suggesting keywords for policy creation.
- Method for intelligent maintenance services using machine learning.
- Method for reducing greenhouse gas emissions in an entity by utilizing historical greenhouse gas emissions data.
- System and method for installing a wellbore completion setup based on the probability within a reservoir.
- Method for analyzing a fluid sample using a cuvette that dissolves in the presence of a specific substance.
- Method for measuring the critical micelle concentration of a surfactant solution.
- Double-layered wellbore tubular assembly for use in oil and gas drilling operations.
- Method for optimizing drilling operations by continuously monitoring drilling parameters in real-time.
- Method for predicting gas flow rates in wells using machine learning techniques.
Overall, Saudi Aramco's recent patent filings demonstrate their commitment to innovation and advancing technologies in the oil and gas industry. These inventions have the potential to enhance operational efficiency, reduce environmental impact, and improve overall performance in the sector.
Contents
- 1 Patent applications for SAUDI ARABIAN OIL COMPANY on November 30th, 2023
- 1.1 DATE SEED POWDER FOR WATER FILTRATION TREATMENT (18449496)
- 1.2 DYNAMIC BONDS FOR DOUBLE DEGRADATION FEATURES IN POLYMERIC MATERIALS (17824658)
- 1.3 ORGANOCLAY-FREE INVERT EMULSION OIL-BASED DRILLING FLUIDS WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANE (17827273)
- 1.4 Viscoelastic-Surfactant Fracturing Fluids Having Oxidizer (18362672)
- 1.5 SLURRY-PHASE CATALYST COMPOSITIONS IN AROMATIC SOLVENTS AND METHODS OF MAKING (17828463)
- 1.6 CORROSION INHIBITOR FORMULATIONS BASED ON COMPOUNDS WITH BOTH PYRIDINIUM AND HYDROXY SUBSTITUENTS (18318960)
- 1.7 APPARATUS TO SIMULATE BIOCIDE PERFORMANCE IN CRUDE PIPELINE CONDITIONS (18340420)
- 1.8 WHIPSTOCK TO PLUG AND ABANDON WELLBORE BELOW SETTING DEPTH (17751987)
- 1.9 DISSOLVABLE BALLAST FOR UNTETHERED DOWNHOLE TOOLS (17752176)
- 1.10 ADJUSTABLE FISHING GRAPPLE TOOL (17804525)
- 1.11 PRODUCING GAS THROUGH VARIABLE BORE PRODUCTION TUBING (17804764)
- 1.12 SYSTEMS AND METHODS FOR NOTCHING A TARGET WELLBORE IN A SUBSURFACE FORMATION (17826393)
- 1.13 MACHINE-LEARNED BASED REAL-TIME VIRTUAL GAS METERING (17804413)
- 1.14 METHOD AND SYSTEM FOR DETERMINING A GEOLOGICALLY-GUIDED ASSESSMENT FOR MANAGING DRILLING (17664994)
- 1.15 DOUBLE-LAYERED WELLBORE TUBULAR ASSEMBLY (17751968)
- 1.16 DETERMINING THE CRITICAL MICELLE CONCENTRATION UTILIZING SEDIMENTATION VELOCITY PROFILES (17827220)
- 1.17 Method to Detect Diesel in Fluid Samples (17828912)
- 1.18 NUMERICAL SIMULATION CAPABILITY FOR DETERMINING BLOCKAGES WITHIN A WELLBORE AND WELLBORE COMPLETION SETUPS (17752317)
- 1.19 GREENHOUSE GAS REDUCTION AUTOMATION PROCESS (17804534)
- 1.20 METHOD AND SYSTEM FOR INTELLIGENT MAINTENANCE SERVICES USING MACHINE LEARNING (17804038)
- 1.21 SYSTEM AND METHOD FOR INTEGRATING MACHINE LEARNING IN DATA LEAKAGE DETECTION SOLUTION THROUGH KEYWORD POLICY PREDICTION (17804055)
- 1.22 AUTOMATED LIVE PROPERTIES COMPONENT UPDATE IN RESERVOIR SIMULATION MODEL (17804043)
Patent applications for SAUDI ARABIAN OIL COMPANY on November 30th, 2023
DATE SEED POWDER FOR WATER FILTRATION TREATMENT (18449496)
Main Inventor
Qiwei WANG
DYNAMIC BONDS FOR DOUBLE DEGRADATION FEATURES IN POLYMERIC MATERIALS (17824658)
Main Inventor
Haleema Alamri
ORGANOCLAY-FREE INVERT EMULSION OIL-BASED DRILLING FLUIDS WITH POLYHEDRAL OLIGOMERIC SILSESQUIOXANE (17827273)
Main Inventor
Jothibasu Ramasamy
Viscoelastic-Surfactant Fracturing Fluids Having Oxidizer (18362672)
Main Inventor
Katherine Leigh Hull
SLURRY-PHASE CATALYST COMPOSITIONS IN AROMATIC SOLVENTS AND METHODS OF MAKING (17828463)
Main Inventor
Omer Refa Koseoglu
CORROSION INHIBITOR FORMULATIONS BASED ON COMPOUNDS WITH BOTH PYRIDINIUM AND HYDROXY SUBSTITUENTS (18318960)
Main Inventor
Muhammad Imran Ul-haq
APPARATUS TO SIMULATE BIOCIDE PERFORMANCE IN CRUDE PIPELINE CONDITIONS (18340420)
Main Inventor
Xiangyang Zhu
WHIPSTOCK TO PLUG AND ABANDON WELLBORE BELOW SETTING DEPTH (17751987)
Main Inventor
Ahmed Abdulaziz Al-Mousa
DISSOLVABLE BALLAST FOR UNTETHERED DOWNHOLE TOOLS (17752176)
Main Inventor
Huseyin Rahmi Seren
ADJUSTABLE FISHING GRAPPLE TOOL (17804525)
Main Inventor
Ahmed A. Al-Mousa
PRODUCING GAS THROUGH VARIABLE BORE PRODUCTION TUBING (17804764)
Main Inventor
Bryan Hall-Thompson
SYSTEMS AND METHODS FOR NOTCHING A TARGET WELLBORE IN A SUBSURFACE FORMATION (17826393)
Main Inventor
Yanhui Han
MACHINE-LEARNED BASED REAL-TIME VIRTUAL GAS METERING (17804413)
Main Inventor
Ammal F. Al-Anazi
METHOD AND SYSTEM FOR DETERMINING A GEOLOGICALLY-GUIDED ASSESSMENT FOR MANAGING DRILLING (17664994)
Main Inventor
Ammar Alali
DOUBLE-LAYERED WELLBORE TUBULAR ASSEMBLY (17751968)
Main Inventor
Ahmed Abdulaziz Al-Mousa
DETERMINING THE CRITICAL MICELLE CONCENTRATION UTILIZING SEDIMENTATION VELOCITY PROFILES (17827220)
Main Inventor
Ahmed Wasel Alsmaeil
Method to Detect Diesel in Fluid Samples (17828912)
Main Inventor
Amjad Felemban
NUMERICAL SIMULATION CAPABILITY FOR DETERMINING BLOCKAGES WITHIN A WELLBORE AND WELLBORE COMPLETION SETUPS (17752317)
Main Inventor
Osman Hamid
GREENHOUSE GAS REDUCTION AUTOMATION PROCESS (17804534)
Main Inventor
Hussain A. Al Rasheed
METHOD AND SYSTEM FOR INTELLIGENT MAINTENANCE SERVICES USING MACHINE LEARNING (17804038)
Main Inventor
Abdullah Yousef Bukhamsin
SYSTEM AND METHOD FOR INTEGRATING MACHINE LEARNING IN DATA LEAKAGE DETECTION SOLUTION THROUGH KEYWORD POLICY PREDICTION (17804055)
Main Inventor
Ahmad F. Sirhani
AUTOMATED LIVE PROPERTIES COMPONENT UPDATE IN RESERVOIR SIMULATION MODEL (17804043)
Main Inventor
Belkhir Mokdad