Data-driven deep-learning forecasting for oil production and pressure

Data-driven deep-learning forecasting for oil production and pressure

Production forecasting plays an important role in oil and gas production, aiding engineers to perform field management. However, this can be challenging for complex reservoirs such as the highly heterogeneous carbonate reservoirs from Brazilian Pre-salt fields. We propose a new setup for forecasting...

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Bibliographic Details
Published in:Journal of petroleum science & engineering Vol. 210; p. 109937
Main Authors: Werneck, Rafael de Oliveira, Prates, Raphael, Moura, Renato, Gonçalves, Maiara Moreira, Castro, Manuel, Soriano-Vargas, Aurea, Ribeiro Mendes Júnior, Pedro, Hossain, M. Manzur, Zampieri, Marcelo Ferreira, Ferreira, Alexandre, Davólio, Alessandra, Schiozer, Denis, Rocha, Anderson
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2022
Subjects:
Data-driven
Deep learning
Forecasting
Oil production
Pre-salt
Deep learning
Data-driven
Oil production
Forecasting
Pre-salt
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Summary:Production forecasting plays an important role in oil and gas production, aiding engineers to perform field management. However, this can be challenging for complex reservoirs such as the highly heterogeneous carbonate reservoirs from Brazilian Pre-salt fields. We propose a new setup for forecasting multiple outputs using machine-learning algorithms and evaluate a set of deep-learning architectures suitable for time-series forecasting. The setup proposed is called N-th Day and it provides a coherent solution for the problem of forecasting multiple data points in which a sliding window mechanism guarantees there is no data leakage during training. We also devise four deep-learning architectures for forecasting, stacking the layers to focus on different timescales, and compare them with different existing off-the-shelf methods. The obtained results confirm that specific architectures, as those we propose, are crucial for oil and gas production forecasting. Although LSTM and GRU layers are designed to capture temporal sequences, the experiments also indicate that the investigated scenario of production forecasting requires additional and specific structures. [Display omitted] •Evaluation of different setups for forecasting.•Proposal of a new setup for forecasting.•Evaluation of different pre-processing techniques.•Comparison with off-the-shelf techniques.
ISSN:0920-4105
1873-4715
DOI:10.1016/j.petrol.2021.109937