Difference between revisions of "17936728. METHOD TO ASSESS RESERVOIR CONTINUITY BETWEEN SINGLE WELLS IN AN OILFIELD FORMATION WITHIN A REGION WITH SEVERAL PETROLEUM RESERVOIRS simplified abstract (Saudi Arabian Oil Company)"
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METHOD TO ASSESS RESERVOIR CONTINUITY BETWEEN SINGLE WELLS IN AN OILFIELD FORMATION WITHIN A REGION WITH SEVERAL PETROLEUM RESERVOIRS
Organization Name
Inventor(s)
METHOD TO ASSESS RESERVOIR CONTINUITY BETWEEN SINGLE WELLS IN AN OILFIELD FORMATION WITHIN A REGION WITH SEVERAL PETROLEUM RESERVOIRS - A simplified explanation of the abstract
This abstract first appeared for US patent application 17936728 titled 'METHOD TO ASSESS RESERVOIR CONTINUITY BETWEEN SINGLE WELLS IN AN OILFIELD FORMATION WITHIN A REGION WITH SEVERAL PETROLEUM RESERVOIRS
Simplified Explanation
The patent application describes a method to assess reservoir continuity between single wells in an oilfield formation within a region with several petroleum reservoirs.
- Collect water samples from each of the single wells
- Obtain the geochemical composition of each water sample
- Obtain a dataset from the geochemical compositions of the single wells
- Analyze the dataset using principal component analysis to obtain principal components
- Cluster the principal components to obtain clusters
- Identify hydrodynamic groups from the clusters
- Assign the wells to hydrodynamic groups, where wells within one single hydrodynamic group are considered to be hydraulically communicated
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- Potential Applications
This technology could be applied in the oil and gas industry for optimizing reservoir management and production strategies.
- Problems Solved
This technology helps in identifying hydraulic communication between wells, which is crucial for efficient reservoir management and production optimization.
- Benefits
The method provides a systematic approach to assess reservoir continuity, leading to improved decision-making in oilfield operations.
- Potential Commercial Applications
The technology could be utilized by oil and gas companies to enhance reservoir performance and maximize production output.
- Possible Prior Art
One possible prior art could be traditional methods of reservoir characterization and connectivity analysis, which may not be as comprehensive or efficient as the method described in the patent application.
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- Unanswered Questions
- How does this method compare to existing reservoir connectivity assessment techniques?
The article does not provide a direct comparison with traditional methods or other existing technologies for assessing reservoir continuity. It would be beneficial to understand the advantages and limitations of this method in comparison to established techniques.
- What are the potential limitations or challenges in implementing this method in different geological settings?
The article does not address the adaptability of the method to various geological formations or environmental conditions. It would be important to explore the potential challenges or limitations that may arise when applying this technology in diverse oilfield settings.
Original Abstract Submitted
A method to assess reservoir continuity between single wells in an oilfield formation within a region with several petroleum reservoirs, including the steps: collecting water samples from each of the single wells, obtaining the geochemical composition of each of the water samples, obtaining a dataset from the geochemical compositions of the single wells, analyzing the dataset using principal component analysis to obtain principal components of the dataset, clustering the principal components to obtain clusters, identifying hydrodynamic groups from the clusters, assigning the wells to hydrodynamic groups, wherein wells within one single hydrodynamic group are considered to be hydraulically communicated.