Deep Learning-Accelerated 3D Carbon Storage Reservoir Pressure Forecasting Based on Data Assimilation Using Surface Displacement from InSAR
Autor: | Hewei Tang, Pengcheng Fu, Honggeun Jo, Su Jiang, Christopher S. Sherman, François Hamon, Nicholas A. Azzolina, Joseph P. Morris |
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Rok vydání: | 2022 |
Předmět: |
FOS: Computer and information sciences
History Computer Science - Machine Learning Polymers and Plastics FOS: Physical sciences Machine Learning (stat.ML) Management Monitoring Policy and Law Pollution Industrial and Manufacturing Engineering Machine Learning (cs.LG) Geophysics (physics.geo-ph) Physics - Geophysics General Energy Statistics - Machine Learning Business and International Management |
DOI: | 10.48550/arxiv.2201.08543 |
Popis: | Fast forecasting of reservoir pressure distribution in geologic carbon storage (GCS) by assimilating monitoring data is a challenging problem. Due to high drilling cost, GCS projects usually have spatially sparse measurements from wells, leading to high uncertainties in reservoir pressure prediction. To address this challenge, we propose to use low-cost Interferometric Synthetic-Aperture Radar (InSAR) data as monitoring data to infer reservoir pressure build up. We develop a deep learning-accelerated workflow to assimilate surface displacement maps interpreted from InSAR and to forecast dynamic reservoir pressure. Employing an Ensemble Smoother Multiple Data Assimilation (ES-MDA) framework, the workflow updates three-dimensional (3D) geologic properties and predicts reservoir pressure with quantified uncertainties. We use a synthetic commercial-scale GCS model with bimodally distributed permeability and porosity to demonstrate the efficacy of the workflow. A two-step CNN-PCA approach is employed to parameterize the bimodal fields. The computational efficiency of the workflow is boosted by two residual U-Net based surrogate models for surface displacement and reservoir pressure predictions, respectively. The workflow can complete data assimilation and reservoir pressure forecasting in half an hour on a personal computer. |
Databáze: | OpenAIRE |
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