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Digital Twins for Drilling Fluids: Advances and Opportunities

Mehrdad G. Shirangi, Reza Ettehadi Osgouei, Roger Aragall, Edward T. Furlong, Roland May, Thomas Dahl, M. Samnejad, Charles A. Thompson

2020IADC/SPE International Drilling Conference and Exhibition22 citationsDOI

Abstract

Abstract In this work, we present our unique technology to develop and apply digital twins for drilling fluids and associated wellbore phenomena during drilling operations. A drilling fluid digital twin is a series of interconnected models that incorporate the learning from geological uncertainty, complexity of drilling fluids and operational parameters to support well planning and real-time operations. We transform data collected throughout the years from all aspects of drilling fluids to value-added applications and include real-world conditions such as operation at extended temperatures and pressures, consideration for sensitive zones with tight control of the equivalent circulating density (ECD), and hole cleaning in deviated wellbores. With the advances presented in this work, cuttings bed height along the wellbore can be determined more accurately, and hence the ‘fluid plan’ together with operational parameters (such as mud flow rate and rate of penetration (ROP)) can be optimized to a higher level. In addition to the cuttings bed, an accurate workflow for monitoring of downhole fluid rheological properties at the rigsite is developed. Through the use of a digital twin, accurate high-pressure high-temperature (HPHT) properties can be determined at the rigsite, which can more easily enable efficient and safe operations, as opposed to lab experiments that are often conducted remotely. We demonstrate the application of automated machine learning (autoML) to represent computational simulations and lab experiments. We also use test datasets and rotating cross-validation methods to ensure accurate and robust results. In both cases, very accurate models were obtained, and point the way for the inclusion of more aspects of the drilling operation including ROP optimization, fluid-loss control, drilling fluid properties management, and power transmission.

Topics & Concepts

Drilling fluidWellboreDrillingPetroleum engineeringRate of penetrationWorkflowMeasurement while drillingComputer scienceWork (physics)Work flowMechanical engineeringGeologySimulationIndustrial engineeringEngineeringDatabaseDrilling and Well EngineeringOil and Gas Production TechniquesMineral Processing and Grinding
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