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Applied Transfer Learning for Production Forecasting in Shale Reservoirs

Uchenna Odi, Kola Ayeni, Nouf Alsulaiman, Karri Reddy, Kathy Ball, Mustafa Basri, Cenk Temizel

202112 citationsDOI

Abstract

Abstract There are documented cases of machine learning being applied to different segments of the oil and gas industry with different levels of success. These successes have not been readily transferred to production forecasting for unconventional oil and gas reservoirs because of sparsity of production data at the early stage of production. Sparsity of unconventional production data is a challenge, but transfer learning can mitigate this challenge. Application of machine learning for production forecasting is challenging in areas with insufficient data. Transfer learning makes it possible to carry over the information gathered from well-established areas with rich data to areas with relatively limited data. This study outlines the background theory along with the application of transfer learning in unconventionals to aid in production forecasting. Similarity metrics are utilized in finding candidates for transfer learning by using key drivers for reservoir performance. Key drivers include similar reservoir mechanisms and subsurface structures. After training the model on a related field with rich data, most of the primary parameters learned and stored in a representative machine or deep learning model can be re-used in a transfer learning manner. By employing the already learned basic features, models with sparse data have been enriched by using transfer learning. The approach has been outlined in a stepwise manner with details. With the help of the insights transferred from related sites with rich data, the uncertainty in production forecasting has decreased, and the accuracy of the predictions increased. As a result, the details of selecting a related site to be used for transfer learning along with the challenges and steps in achieving the forecasts have been outlined in detail. There are limited studies in oil and gas literature on transfer learning for oil and gas reservoirs. If applied with care, it is a powerful method for increasing the success of models with sparse data. This study uses transfer learning to encapsulate the basics of the substructure of a well-known area and uses this information to empower the model. This study investigates the application to unconventional shale reservoirs, which have limited studies on transfer learning.

Topics & Concepts

Transfer of learningComputer scienceProduction (economics)Machine learningArtificial intelligenceField (mathematics)Inductive transferDeep learningKey (lock)MacroeconomicsEconomicsRobotComputer securityMathematicsMobile robotRobot learningPure mathematicsHydraulic Fracturing and Reservoir AnalysisReservoir Engineering and Simulation MethodsHydrocarbon exploration and reservoir analysis
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