Solution of one optimum control problem regarding the depletion of gas reservoir

Authors

DOI:

https://doi.org/10.15587/1729-4061.2022.252743

Keywords:

control problem, gas filtration process, gradient projection method, numerical experiment

Abstract

Using the methods of the optimal control theory, the problem of determining the optimal technological mode of gas deposits’ exploitation under the condition of their depletion by a given point in time is solved. This task is of particular interest for the exploitation of offshore fields, the activity of which is limited by the service life of the field equipment. The considered problem is also of certain mathematical interest as an objective of optimal control of nonlinear systems with distributed parameters. The usefulness and importance of solving such problems are determined by the richness of the class of major tasks that have a practical result. As an optimality criterion, a quadratic functional characterizing the conditions of reservoir depletion is considered. By introducing an auxiliary boundary value problem, and taking into account the stationarity conditions for the Lagrange functions at the optimal point, a formula for the gradient of the minimized functional is obtained.

To obtain a solution to this specific optimization problem, which control function is sought in the class of a piecewise continuous and bounded function with discontinuities of the first kind, the Pontryagin’s maximum principle is subjected. The calculation of the gradient of the functional for the original and adjoint problems with partial differential equations is carried out by the method of straight lines.

The numerical solution of the problem was carried out by two methods – the method of gradient projection with a special choice of step and the method of successive approximations.

Despite the incorrectness of optimal control problems with a quadratic functional, the gradient projection method did not show a tendency to «dispersion» and gave a convergent sequence of controls.

Author Biographies

Kamil Mamtiyev, Azerbaijan State Economic University (UNEC)

PhD, Associate Professor

Department of Digital Technologies and Applied Informatics

Tarana Aliyeva, Azerbaijan State Economic University (UNEC)

PhD, Associate Professor

Department of Digital Technologies and Applied Informatics

Ulviyye Rzayeva, Azerbaijan State Economic University (UNEC)

PhD, Assistant Professor

Department of Digital Technologies and Applied Informatics

References

  1. Kalugin, Yu. I., Yakovlev, V. V., Kalugin, A. Yu. (2015). Optimizatsiya razrabotki gazokondensatnyh mestorozhdeniy. Prykladna hidromekhanika, 17 (1), 37–52. Available at: http://hydromech.org.ua/content/pdf/ph/ph-17-1(37-52).pdf
  2. Mamtiyev, K., Aliyeva, T., Rzayeva, U. (2020). Solution of One Problem on Optimum Gas Well Operation Control. Economic Computation and Economic Cybernetics Studies and Research, 54 (4), 249–264. doi: https://doi.org/10.24818/18423264/54.4.20.16
  3. Mamtiyev, K., Aliyeva, T., Rzayeva, U. (2021). Analysis of one class of optimal control problems for distributed-parameter systems. Eastern-European Journal of Enterprise Technologies, 5(4 (113)), 26–33. doi: https://doi.org/10.15587/1729-4061.2021.241232
  4. Ravshanov, N., Nazirova, E. Sh., Nematov, A. (2020). Mathematical model and numerical algorithm for solving gas filtration problems in two-plasted porous media with a weakly permeable jumper. Problemy vychislitel'noy i prikladnoy matematiki, 3 (27), 20–39. Available at: https://elibrary.ru/item.asp?id=46162803
  5. Zhakbarov, O. O. (2020). Models and optimal control algorithms for filtering systems. Sotsial'no-ekonomicheskie i tekhnicheskie sistemy: issledovanie, proektirovanie, optimizatsiya, 3 (86), 6–12. Available at: https://kpfu.ru/portal/docs/F649543575/_SETS._3_86_.2020.pdf
  6. Kushnera, A. G., Lychaginc, V. V., Roopa, M. D. (2020). Contact geometry in optimal control of thermodynamic processes for gases. Doklady rossiyskoy akademii nauk. Matematika, informatika, protsessy upravleniya, 493 (1), 99–103. Available at: https://sciencejournals.ru/cgi/getPDF.pl?jid=danmiup&year=2020&vol=493&iss=1&file=DANMIUp2004010Kushner.pdf
  7. Akhmetzianov, A. V., Kushner, A. G., Lychagin, V. V. (2018). Optimal Management of Oil Field Development in the Buckley–Leverett Model. Automation and Remote Control, 79 (4), 641–654. doi: https://doi.org/10.1134/s0005117918040069
  8. Lutsenko, I., Fomovskaya, O., Konokh, I., Oksanych, I. (2017). Development of a method for the accelerated two-stage search for an optimal control trajectory in periodical processes. Eastern-European Journal of Enterprise Technologies, 3 (2 (87)), 47–55. doi: https://doi.org/10.15587/1729-4061.2017.103731
  9. Demin, D. (2017). Synthesis of optimal control of technological processes based on a multialternative parametric description of the final state. Eastern-European Journal of Enterprise Technologies, 3 (4 (87)), 51–63. doi: https://doi.org/10.15587/1729-4061.2017.105294
  10. Vasil'ev, F. P. (2002). Metody optimizatsii. Moscow: Faktorial Press, 824.

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Published

2022-02-25

How to Cite

Mamtiyev, K., Aliyeva, T., & Rzayeva, U. (2022). Solution of one optimum control problem regarding the depletion of gas reservoir. Eastern-European Journal of Enterprise Technologies, 1(4 (115), 6–13. https://doi.org/10.15587/1729-4061.2022.252743

Issue

Vol. 1 No. 4 (115) (2022): Mathematics and Cybernetics - applied aspects

Section

Mathematics and Cybernetics - applied aspects

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Copyright (c) 2022 Kamil Mamtiyev, Tarana Aliyeva, Ulviyye Rzayeva

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