O. V. Lyubimova scite author profile

O. V. Lyubimova

5Publications

0Citation Statements Received

63Citation Statements Given

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126

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Oil and Gas Research Institute, Bashkir Scientific Research Institute of Petroleum Refining

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Optimal Control of Field Development in a Closed Loop

Zakirov

Indrupskiy

et al. 2015

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The problem of optimum field development management has been always important, but for the recent years it acquired a special practical value. Intelligent field control systems, ЉsmartЉ wells and other technical achievements open up new possibilities for maximizing recovery without any additional costs for drilling and changes in development system. This task is of special relevance for hard-to-recover hydrocarbons -deposits with low-permeable heterogeneous reservoirs, high water-cut fields, heavy oil reservoirs, remaining reserves of low-pressure gas fields, gas condensate deposits, oil rims, etc.Today field development management is known more as a technical problem of operating and measuring hardware implementation, while scientific aspects are insufficiently developed. The most accurate definition of this problem, representing its practical value, consists in the management of development in the closed loop, when assimilation of data from various sources is continiuosly followed by production optimization based on the history-matched 3D model. Production dynamics forecasting for the set of production/injection controls on wells or separate intervals of ЉsmartЉ wells is carried out in multiphase non-stationary statement on a sector or full-scale 3D model. To incorporate permanently incoming field information, the automated adaptation (history matching) of a 3D model to the actual well operation and testing data is carried out periodically.Authors have implemented a geologically consistent algorithm for automated 3D model history matching, based on the effective modern methods of the optimum control theory. In contrast to traditional approaches, not individual properties of reservoir zones are adjusted in the history matching procedure, but rather initial parameters of anisotropic geostatistical fields and petrophysical relations, taking into account the facial model of the reservoir. The hhistory-matched 3D model is used for searching at each time step for the optimal well operating controls maximizing an integral quality criterion -e.g., discounted oil production or given criterion of economic efficiency for the forecast period. Field surface facilities group limitations on fluids production/injection volumes and individual limitations of wells on operating pressures are considered. The efficiency of optimization algorithm is as well granted by use of the modern optimum control theory methods.The developed algorithms for soluton of field development management problems in the closed loop are implemented in the authors' in-house software SimMatch®. Within the forward problem solution it implements the extended black oil model and is comparable in functionality to the main modules of commercial simulators. As an example of the implementation of the proposed approach, several cases of geologically consistent history matching and optimum waterflooding control for deposits with highly heterogeneous anisotropic fields of reservoir properties (both flow and capacity parameters) are presented in the paper.For the fir...

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Automated Geologically-Consistent History Matching of Facies Distribution and Reservoir Properties in Inter-Well Space by Adjoint Methods

Zakirov

Lyubimova

Indrupsky

et al. 2017

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Comprehensive geological analysis at the stage of 3D geological modeling is necessary to obtain a high-quality flow model. The next important step is history matching to dynamic well data without distortion of the initial geological basis of the model. It is necessary to preserve static data on facies indexes, porosity and other parameters in the well gridcells, adjusting their distributions in the inter-well space, while maintaining the geological concepts of the object. The purpose of the study presented in this paper was the development of automated computationally efficient algorithms for solving this problem. Earlier, based on the computationally efficient adjoint methods, we developed algorithms and their implementation in the in-house SimMatch® simulator for geologically consistent history matching with identification of parameters of the variograms and porosity-to-permeability relations for a given distribution of facies in the inter-well space. In this study, we make transition from the discrete representation of facies at wells to the continuous values in the inter-well space reflecting the fractional contribution of the facies in the formation of model cell properties. Considering implicit parametric dependencies on static data at wells and variogram parameters for properties and facies, a computationally efficient algorithm was developed for consistent adjustment of the distributions of facies and reservoir properties during history matching of the 3D model. The algorithms developed are implemented within the frameworks of the forward and inverse problems. In the forward problem, a distribution of a continuous facies parameter is constructed, taking into account well data and the variogram for the facies. In current implementation, the continuous "facie" value is interpreted as being transitional (weighted) between the adjacent integer values, which is typical for geological environments with sequential change of facies usually modeled by methods such as the truncated Gaussian simulation. Further, for each facie, distribution of the reservoir parameters (porosity, permeability) is independently constructed, taking into account the variogram for porosity and the porosity-to-permeability relation for this facie. The resulting property value in each cell is determined by weighing by the portions of the "pure" facies. Within the framework of the inverse problem, the parameters of anisotropic variograms for the facies and for the reservoir properties within each facie, as well as the coefficients in the porosity-to-permeability relation for each facie, serve as the control parameters. For efficient implementation of the automated gradient procedure for adjustment control parameters, the adjoint problem is solved at each iteration, and the object function gradient with respect to the control parameters is calculated taking into account the implicit dependencies of the reservoir properties in the model cells on the variogram parameters for the facies and reservoir properties. The results of approbation of the approach on a realistic example of the 3D reservoir model and on a 3D model of a real deposit section are presented. During the study, effecient algorithms for consistent adjustment of the facies and reservoir properties distributions in a 3D model were for the first time constructed on the basis of adjoint methods and implemented in the in-house simulator. The advantage of the approach is the significant reduction in computational costs (number of simulator runs) for solution of the inverse problem in comparison with alternative methods of automated history matching, while preserving the consistency of the facies and reservoir properties distributions with the original principles of the geological model construction.

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Optimal Control of Field Development in a Closed Loop (Russian)

Zakirov

Indrupskiy

et al. 2015

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Impact of the variable wettability of the complex carbonate reservoir on oil saturation distribution

Kanevskaya

Isakova

Korobkin

et al. 2017

OIJ

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Geostatistically-Consistent History Matching Of Lithofacies And Reservoir Properties Applied To Synthetic and Real-Field Cases

Zakirov¹,

Shiryaev²,

Indrupskiy³

et al. 2018

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O. V. Lyubimova

Optimal Control of Field Development in a Closed Loop

Automated Geologically-Consistent History Matching of Facies Distribution and Reservoir Properties in Inter-Well Space by Adjoint Methods

Optimal Control of Field Development in a Closed Loop (Russian)

Impact of the variable wettability of the complex carbonate reservoir on oil saturation distribution

Geostatistically-Consistent History Matching Of Lithofacies And Reservoir Properties Applied To Synthetic and Real-Field Cases

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