Closed-loop Feedback Control in Intelligent Wells: Application to a Heterogeneous, Thin Oil-Rim Reservoir in the North Sea

Dilib, Fahad Ahmed; Jackson, M.; Zadeh, Ali Mojaddam; Aasheim, Robert; Årland, Kristine; Gyllensten, Atle J.; Erlandsen, Sigurd Myge

doi:10.2118/159550-ms

Cited by 5 publications

(5 citation statements)

References 48 publications

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“…To keep the problem tractable, we employ a simple box reservoir model, characterized by 50 × 50 × 167 simulation cells. Each cell has an approximate dimension of 20 m × 20 m × 3 m. The choice of cell area dimension of 20 m × 20 m was arbitrary, but finer than the cell dimensions of 50 m × 50 m and 100 m × 100 m typically used to simulate realistic reservoirs in practice (Lawal et al 2016(Lawal et al , 2017Dilib et al 2015;Uwaga and Lawal 2006;Kabir et al 2004). However, prior grid sensitivity tests suggested that a 3 m layer thickness was adequate to achieve computational efficiency without significant numerical artefacts for this specific model.…”

Section: Numerical Modelmentioning

confidence: 99%

“…The early and sustained production of these unwanted associated fluids increases the operating expenses related to handling gas and water produced per unit volume of oil recovered, hence eroding project value. Because coning rates are usually below economic thresholds, the strategy of limiting oil offtake below gas and water coning rates has not recorded significant success in practice (Balogun et al 2015;Dilib et al 2015;Yeoh 2014;Lawal et al 2010;Kromah and Dawe 2008;Uwaga and Lawal 2006).…”

Section: Introductionmentioning

confidence: 99%

“…In searching for an optimum solution, the rigorous evaluation of the various development options often requires extensive reservoir simulation studies. This optimization problem entails multiple variables, which include geologic, engineering, economic, regulatory and operational factors (Ziablitckaia et al 2019;Elharith et al 2019;Ogolo et al 2018;Dilib et al 2015;Thomas and Bratvold 2015;Chan et al 2014;Uwaga and Lawal 2006). These variables usually exhibit varied dependencies, thereby complicating the problem of selecting the most appropriate combination of well type, development concepts and production constraints.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Rapid screening of oil-rim reservoirs for development and management

Lawal¹,

Yadua²,

Ovuru³

et al. 2019

J Petrol Explor Prod Technol

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As an improvement over existing screening techniques, we introduce the relative mobile energy of primary gas-cap to the aquifer (E gw) as a new parameter for characterizing the performance of oil-rim reservoirs. E gw integrates key static and dynamic reservoir properties. To account for the time value of production, the framework allows maximizing the discounted recovery factor (DRF) of oil, gas or total hydrocarbon as the objective function. Employing detailed simulations of different well-defined oil-rim models, DRFs of oil, gas and total hydrocarbons have been correlated against E gw for common development concepts and well types. These correlations have resulted in a new screening technique for both green and brown oil-rim reservoirs. In addition to presenting simple generic charts for quick evaluation of oil-rim reservoirs, the main contributions of this work include the introduction of E gw as a new performance-characterizing parameter, and the flexibility to consider the DRF of any of oil, gas or total hydrocarbon as the basis for screening an oil-rim reservoir for development planning and field management. Using the example of a brown oil-rim reservoir, the applicability and robustness of the new screening technique are demonstrated.

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Section: Numerical Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Rapid screening of oil-rim reservoirs for development and management

Lawal¹,

Yadua²,

Ovuru³

et al. 2019

J Petrol Explor Prod Technol

View full text Add to dashboard Cite

show abstract

“…Doublet et al (2009) formulated a constrained optimization problem as an augmented Lagrangian saddle point problem. Dilib et al (2012) optimized a closed-loop strategy using a base case model, and then tested against unexpected reservoir behavior by adjusting a number of uncertain parameters in the model. They found that closedloop feedback control yields positive gains in NPV for the majority of reservoir behaviors investigated, and higher gains than the open-loop strategy since closed-loop control can also yield positive gains in NPV even when the reservoir does not behave as expected.…”

Section: Intelligent Well Production Optimizationmentioning

confidence: 99%

Application of simulated annealing optimization algorithm to optimal operation of intelligent well completions in an offshore oil reservoir

Raoufi

Farasat

Mohammadifard

2014

J Petrol Explor Prod Technol

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The latest intelligent fields include intelligent well completions capable of collecting downhole data, which allow the operator to selectively control completion intervals throughout the life of a reservoir. Performance can be monitored and optimized in real time and operations can be adjusted remotely using downhole equipment. To quantify and develop this potential, we deigned an algorithm-based system which is capable of optimizing intelligent well control to decide on whether or not to utilize intelligent well technology. Simulated annealing algorithm was used for obtaining an optimum control strategy and determining an operation that maximizes the net present value (NPV). In this article, we used more than 4,000 simulation runs which were performed automatically in a reservoir simulator to optimize a cyclic production scenario with intelligent well completions. The intelligent wells were equipped with on/off inflow control valves in each zone, which were opened and closed sequentially to maximize the oil rate while not exceeding limits for water production. The results show that the application of simulated annealing algorithm for optimization of intelligent well technology culminates in an increase in the NPV through 14 % increase in cumulative oil production and a significant reduction in water production.

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“…The use of control policies [1,[17][18][19] has proven to be an effective technique to address the conservative nature of robust optimization solutions in reservoir management problems. These control policies are designed to map observed data to optimal well settings.…”

Section: Introductionmentioning

confidence: 99%

Multi-Asset Closed-Loop Reservoir Management Using Deep Reinforcement Learning

Nasir¹,

Durlofsky²

2022

Preprint

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Closed-loop reservoir management (CLRM), in which history matching and production optimization are performed multiple times over the life of an asset, can provide significant improvement in the specified objective. These procedures are computationally expensive due to the large number of flow simulations required for data assimilation and optimization. Existing CLRM procedures are applied asset by asset, without utilizing information that could be useful over a range assets. Here, we develop a CLRM framework for multiple assets with varying numbers of wells. We use deep reinforcement learning to train a single global control policy that is applicable for all assets considered. The new framework is an extension of a recently introduced control policy methodology for individual assets. Embedding layers are incorporated into the representation to handle the different numbers of decision variables that arise for the different assets. Because the global control policy learns a unified representation of useful features from multiple assets, it is less expensive to construct than asset-by-asset training (we observe about 3× speedup in our examples). The production optimization problem includes a relative-change constraint on the well settings, which renders the results suitable for practical use. We apply the multi-asset CLRM framework to 2D and 3D water-flooding examples. In both cases, four assets with different well counts, well configurations, and geostatistical descriptions are considered. Numerical experiments demonstrate that the global control policy provides objective function values, for both the 2D and 3D

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Closed-loop Feedback Control in Intelligent Wells: Application to a Heterogeneous, Thin Oil-Rim Reservoir in the North Sea

Cited by 5 publications

References 48 publications

Rapid screening of oil-rim reservoirs for development and management

Rapid screening of oil-rim reservoirs for development and management

Application of simulated annealing optimization algorithm to optimal operation of intelligent well completions in an offshore oil reservoir

Multi-Asset Closed-Loop Reservoir Management Using Deep Reinforcement Learning

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