Multi Data Reservoir History Matching using the Ensemble Kalman Filter
Reservoir history matching is becoming increasingly important with the growing demand for higher quality formation characterization and forecasting and the increased complexity and expenses for modern hydrocarbon exploration projects. History matching has long been dominated by adjusting reservoir p...
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| Online Access: | https://dx.doi.org/10.25781/kaust-3d3i9 https://repository.kaust.edu.sa/handle/10754/555580 |
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ftdatacite:10.25781/kaust-3d3i9 2023-05-15T17:25:05+02:00 Multi Data Reservoir History Matching using the Ensemble Kalman Filter Katterbauer, Klemens 2015 https://dx.doi.org/10.25781/kaust-3d3i9 https://repository.kaust.edu.sa/handle/10754/555580 unknown KAUST Research Repository Text PhD Dissertation article-journal ScholarlyArticle 2015 ftdatacite https://doi.org/10.25781/kaust-3d3i9 2021-11-05T12:55:41Z Reservoir history matching is becoming increasingly important with the growing demand for higher quality formation characterization and forecasting and the increased complexity and expenses for modern hydrocarbon exploration projects. History matching has long been dominated by adjusting reservoir parameters based solely on well data whose spatial sparse sampling has been a challenge for characterizing the flow properties in areas away from the wells. Geophysical data are widely collected nowadays for reservoir monitoring purposes, but has not yet been fully integrated into history matching and forecasting fluid flow. In this thesis, I present a pioneering approach towards incorporating different time-lapse geophysical data together for enhancing reservoir history matching and uncertainty quantification. The thesis provides several approaches to efficiently integrate multiple geophysical data, analyze the sensitivity of the history matches to observation noise, and examine the framework’s performance in several settings, such as the Norne field in Norway. The results demonstrate the significant improvements in reservoir forecasting and characterization and the synergy effects encountered between the different geophysical data. In particular, the joint use of electromagnetic and seismic data improves the accuracy of forecasting fluid properties, and the usage of electromagnetic data has led to considerably better estimates of hydrocarbon fluid components. For volatile oil and gas reservoirs the joint integration of gravimetric and InSAR data has shown to be beneficial in detecting the influx of water and thereby improving the recovery rate. Summarizing, this thesis makes an important contribution towards integrated reservoir management and multiphysics integration for reservoir history matching. Text Norne field DataCite Metadata Store (German National Library of Science and Technology) Norway |
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DataCite Metadata Store (German National Library of Science and Technology) |
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Reservoir history matching is becoming increasingly important with the growing demand for higher quality formation characterization and forecasting and the increased complexity and expenses for modern hydrocarbon exploration projects. History matching has long been dominated by adjusting reservoir parameters based solely on well data whose spatial sparse sampling has been a challenge for characterizing the flow properties in areas away from the wells. Geophysical data are widely collected nowadays for reservoir monitoring purposes, but has not yet been fully integrated into history matching and forecasting fluid flow. In this thesis, I present a pioneering approach towards incorporating different time-lapse geophysical data together for enhancing reservoir history matching and uncertainty quantification. The thesis provides several approaches to efficiently integrate multiple geophysical data, analyze the sensitivity of the history matches to observation noise, and examine the framework’s performance in several settings, such as the Norne field in Norway. The results demonstrate the significant improvements in reservoir forecasting and characterization and the synergy effects encountered between the different geophysical data. In particular, the joint use of electromagnetic and seismic data improves the accuracy of forecasting fluid properties, and the usage of electromagnetic data has led to considerably better estimates of hydrocarbon fluid components. For volatile oil and gas reservoirs the joint integration of gravimetric and InSAR data has shown to be beneficial in detecting the influx of water and thereby improving the recovery rate. Summarizing, this thesis makes an important contribution towards integrated reservoir management and multiphysics integration for reservoir history matching. |
| format |
Text |
| author |
Katterbauer, Klemens |
| spellingShingle |
Katterbauer, Klemens Multi Data Reservoir History Matching using the Ensemble Kalman Filter |
| author_facet |
Katterbauer, Klemens |
| author_sort |
Katterbauer, Klemens |
| title |
Multi Data Reservoir History Matching using the Ensemble Kalman Filter |
| title_short |
Multi Data Reservoir History Matching using the Ensemble Kalman Filter |
| title_full |
Multi Data Reservoir History Matching using the Ensemble Kalman Filter |
| title_fullStr |
Multi Data Reservoir History Matching using the Ensemble Kalman Filter |
| title_full_unstemmed |
Multi Data Reservoir History Matching using the Ensemble Kalman Filter |
| title_sort |
multi data reservoir history matching using the ensemble kalman filter |
| publisher |
KAUST Research Repository |
| publishDate |
2015 |
| url |
https://dx.doi.org/10.25781/kaust-3d3i9 https://repository.kaust.edu.sa/handle/10754/555580 |
| geographic |
Norway |
| geographic_facet |
Norway |
| genre |
Norne field |
| genre_facet |
Norne field |
| op_doi |
https://doi.org/10.25781/kaust-3d3i9 |
| _version_ |
1766116396047007744 |