1. Normal or abnormal? Machine learning for the leakage detection in carbon sequestration projects using pressure field data.
- Author
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Sinha, Saurabh, de Lima, Rafael Pires, Lin, Youzuo, Sun, Alexander Y., Symons, Neill, Pawar, Rajesh, and Guthrie, George
- Subjects
GEOLOGICAL carbon sequestration ,LEAK detection ,MACHINE learning ,CARBON sequestration ,HYDROCARBON reservoirs ,CONVOLUTIONAL neural networks ,GAS reservoirs - Abstract
The international commitments for atmospheric carbon reduction will require a rapid increase in carbon capture and storage (CCS) projects. The key to any successful CCS project lies in the long term storage and prevention of leakage of stored carbon dioxide (CO 2). In addition to being a greenhouse gas, CO 2 leaks reaching the surface can accumulate in low-lying areas resulting in a serious health risk. Among several alternatives, some of the more promising CCS storage formations are depleted oil and gas reservoirs, where the reservoirs had good geological seals prior to hydrocarbon extraction. With more CCS wells coming online, it is imperative to implement permanent, automated monitoring tools. We apply machine learning models to automate the leakage detection process in carbon storage reservoirs using rates of (CO 2) injection and pressure data measured by simple harmonic pulse testing (HPT). To validate the feasibility of this machine learning based workflow, we use data from HPT experiments carried out in the Cranfield oil field, Mississippi, USA. The data consist of a series of pulse tests conducted with baseline parameters and with an artificially introduced leak. Here, we pose the leakage detection task as an anomaly detection problem where deviation from the predicted behavior indicates leaks in the reservoir. Results show that different machine learning architectures such as multi-layer feed forward network, Long Short-Term Memory, and convolutional neural network are able to identify leakages and can provide early warning. These warnings can then be used to take remedial measures. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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