Geodesic
Method for well placement optimization in oil field development
Vestnik Moskovskogo universiteta. Matematika, mehanika, no. 2 (2021), pp. 52-56 Cet article a éte moissonné depuis la source Math-Net.Ru

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We propose a method for the well placement optimization that allows one for the oil production maximization over a given period of time. The method is based on an empirical approach that assumes the enumeration of possible well positions rather than calculating the gradient of the objective function. This allows one for effective parallelization and, consequently, accelerated performance of the method, and on the other hand, guarantees the global extremum of the objective function. We examine an example of method application for the well placement by using a digital three-dimensional model of an oil field. 
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     author = {A. I. Andreeva and A. A. Afanasyev},
     title = {Method for well placement optimization in oil field development},
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     pages = {52--56},
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A. I. Andreeva; A. A. Afanasyev. Method for well placement optimization in oil field development. Vestnik Moskovskogo universiteta. Matematika, mehanika, no. 2 (2021), pp. 52-56. http://geodesic.mathdoc.fr/item/VMUMM_2021_2_a10/

[1] Onwunalu J.E., Durlofsky L.J., “Application of a particle swarm optimization algorithm for determining optimum well location and type”, Comput. Geosci., 14:1 (2010), 183–198 | DOI | Zbl

[2] Zhang K., Li G., Reynolds A.C., Yao J., Zhang L., “Optimal well placement using an adjoint gradient”, J. Petrol. Sci. Eng., 73:3–4 (2010), 220–226 | DOI

[3] Naderi M., Khamehchi E., “Well placement optimization using metaheuristic bat algorithm”, J. Petrol. Sci. Eng., 150 (2017), 348–354 | DOI

[4] Dake L.P., Fundamentals of Reservoir Engineering, Elsevier Scientific Publishing Co, Amsterdam, 1978

[5] Afanasyev A.A., “Hydrodynamic modelling of petroleum reservoirs using simulator MUFITS”, Energy Procedia, 76 (2015), 427–435 | DOI

[6] Afanasyev A.A., “Application of the reservoir simulator MUFITS for 3D modeling of CO$_2$ storage in geological formations”, Energy Procedia, 40 (2013), 365–374 | DOI

[7] Afanasyev A., Kempka T., Kühn M., Melnik O., “Validation of the MUFITS reservoir simulator against standard CO$_2$ storage benchmarks and history-matched models of the Ketzin pilot site”, Energy Procedia, 97 (2016), 395–402 | DOI

[8] http://www.mufits.imec.msu.ru/example-well-placement.html