Litcius/Paper detail

Control-Oriented Modeling for Managed Pressure Drilling Automation Using Model Order Reduction

Sajad Naderi Lordejani, Bart Besselink, Mohammad Hossein Abbasi, Glenn‐Ole Kaasa, W.H.A. Schilders, Nathan van de Wouw

2020IEEE Transactions on Control Systems Technology19 citationsDOIOpen Access PDF

Abstract

Automation of managed pressure drilling (MPD) enables fast and accurate pressure control in drilling operations. The performance that can be achieved by automated MPD is determined by, first, the controller design and, second, the hydraulics model that is used as a basis for controller design. On the one hand, such hydraulics model should be able to accurately capture essential flow dynamics, for example, wave propagation effects, for which typically complex models are needed. On the other hand, a suitable model should be simple enough to allow for extensive simulation studies supporting scenario analysis and high-performance controller design well. In this paper, we develop a model order reduction approach for the derivation of such a control-oriented model for single-phase flow MPD operations. In particular, a nonlinear model order reduction procedure is presented that preserves key system properties such as stability and provides guaranteed (accuracy) bounds on the reduction error. To demonstrate the quality of the derived control-oriented model, comparisons with field data and both open-loop and closed-loop simulation-based case studies are presented.

Topics & Concepts

Reduction (mathematics)Controller (irrigation)AutomationModel order reductionControl engineeringControl theory (sociology)Computer scienceNonlinear systemHydraulicsEngineeringPressure controlControl systemSimulationControl (management)Mechanical engineeringAlgorithmQuantum mechanicsElectrical engineeringProjection (relational algebra)Artificial intelligenceAgronomyMathematicsAerospace engineeringBiologyGeometryPhysicsDrilling and Well EngineeringOil and Gas Production TechniquesHydraulic Fracturing and Reservoir Analysis