Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model
Secondary recovery involves injecting water or gas into reservoirs to maintain or boost the pressure and sustain production levels at viable rates. Accurate tracking of pressure dynamics as reservoirs produce under secondary production is one of the challenging tasks in reservoir modelling. In this...
| Published in: | 2022 UKACC 13th International Conference on Control (CONTROL) |
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2022
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| Online Access: | http://www.open-access.bcu.ac.uk/12965/ http://www.open-access.bcu.ac.uk/12965/1/Ali_et_al_UKACC2022.pdf https://ieeexplore.ieee.org/document/9781447 https://doi.org/10.1109/Control55989.2022.9781447 |
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ftbirminghamcuni:oai:www.open-access.bcu.ac.uk:12965 2023-05-15T16:01:22+02:00 Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model Ali, Aliyuda Diala, Uchenna Guo, Lingzhong 2022-05-27 text http://www.open-access.bcu.ac.uk/12965/ http://www.open-access.bcu.ac.uk/12965/1/Ali_et_al_UKACC2022.pdf https://ieeexplore.ieee.org/document/9781447 https://doi.org/10.1109/Control55989.2022.9781447 en eng http://www.open-access.bcu.ac.uk/12965/1/Ali_et_al_UKACC2022.pdf Ali, Aliyuda and Diala, Uchenna and Guo, Lingzhong (2022) Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model. In: CONTROL 2022: The 13th UK Automatic Control Council (UKACC) International Conference, 20th - 22nd April 2022, University of Plymouth, UK. doi:10.1109/Control55989.2022.9781447 CAH11-01-01 - computer science Conference or Workshop Item PeerReviewed 2022 ftbirminghamcuni https://doi.org/10.1109/Control55989.2022.9781447 2022-06-09T22:08:39Z Secondary recovery involves injecting water or gas into reservoirs to maintain or boost the pressure and sustain production levels at viable rates. Accurate tracking of pressure dynamics as reservoirs produce under secondary production is one of the challenging tasks in reservoir modelling. In this paper, a data-driven based technique called Dynamic Mode Learning (DML) that aims to provide an efficient alternative approach for learning and decomposing pressure dynamics in multiphase reservoir model that produces under secondary recovery is proposed. Existing algorithms suffer from complexity and thereby resulting to expensive computational demand. The proposed DML technique is developed in the form of a learning system by first, constructing a simple, fast and efficient learning system that extracts important features from original full-state data and places them in a low-dimensional representation as extracted features. The extracted features are then used to reduce the original high-dimensional data after which dynamic modes are computed on the reduced data. The performance of the proposed DML method is illustrated on pressure field data generated from direct numerical simulations. Experimental results performed on the reference data reveal that the proposed DML method exhibits better and effective performance over standard and compressed dynamic mode decomposition (DMD) mainstream algorithms. Conference Object DML Birmingham City University: BCU Open Access 2022 UKACC 13th International Conference on Control (CONTROL) 189 194 |
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Birmingham City University: BCU Open Access |
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English |
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CAH11-01-01 - computer science |
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CAH11-01-01 - computer science Ali, Aliyuda Diala, Uchenna Guo, Lingzhong Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model |
| topic_facet |
CAH11-01-01 - computer science |
| description |
Secondary recovery involves injecting water or gas into reservoirs to maintain or boost the pressure and sustain production levels at viable rates. Accurate tracking of pressure dynamics as reservoirs produce under secondary production is one of the challenging tasks in reservoir modelling. In this paper, a data-driven based technique called Dynamic Mode Learning (DML) that aims to provide an efficient alternative approach for learning and decomposing pressure dynamics in multiphase reservoir model that produces under secondary recovery is proposed. Existing algorithms suffer from complexity and thereby resulting to expensive computational demand. The proposed DML technique is developed in the form of a learning system by first, constructing a simple, fast and efficient learning system that extracts important features from original full-state data and places them in a low-dimensional representation as extracted features. The extracted features are then used to reduce the original high-dimensional data after which dynamic modes are computed on the reduced data. The performance of the proposed DML method is illustrated on pressure field data generated from direct numerical simulations. Experimental results performed on the reference data reveal that the proposed DML method exhibits better and effective performance over standard and compressed dynamic mode decomposition (DMD) mainstream algorithms. |
| format |
Conference Object |
| author |
Ali, Aliyuda Diala, Uchenna Guo, Lingzhong |
| author_facet |
Ali, Aliyuda Diala, Uchenna Guo, Lingzhong |
| author_sort |
Ali, Aliyuda |
| title |
Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model |
| title_short |
Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model |
| title_full |
Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model |
| title_fullStr |
Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model |
| title_full_unstemmed |
Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model |
| title_sort |
data-driven based modelling of pressure dynamics in multiphase reservoir model |
| publishDate |
2022 |
| url |
http://www.open-access.bcu.ac.uk/12965/ http://www.open-access.bcu.ac.uk/12965/1/Ali_et_al_UKACC2022.pdf https://ieeexplore.ieee.org/document/9781447 https://doi.org/10.1109/Control55989.2022.9781447 |
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DML |
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DML |
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http://www.open-access.bcu.ac.uk/12965/1/Ali_et_al_UKACC2022.pdf Ali, Aliyuda and Diala, Uchenna and Guo, Lingzhong (2022) Data-Driven Based Modelling of Pressure Dynamics in Multiphase Reservoir Model. In: CONTROL 2022: The 13th UK Automatic Control Council (UKACC) International Conference, 20th - 22nd April 2022, University of Plymouth, UK. doi:10.1109/Control55989.2022.9781447 |
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https://doi.org/10.1109/Control55989.2022.9781447 |
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2022 UKACC 13th International Conference on Control (CONTROL) |
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189 |
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194 |
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