We used the numerical library Portable Extensible Toolkit for Scientific Computation (PETSc) to obtain the solution of the system of algebraic equations arising from the discretization of the governing equation of a two-dimensional oil flow in a porous medium, where both are slightly compressible. Typically, this step is responsible for the highest computational cost compared to the others. Thus, in addition to the search for an accurate solution, we also aimed to achieve better computational performance. We determined the numerical solution in terms of the pressures in the reservoir and the producing well (via a well-reservoir coupling technique), using a Picard method linearization and a time-implicit formulation. We obtained the pressure variations as a function of time by using different computational meshes, modifying the physical properties, and using the methods for solving algebraic systems available at PETSc. The solutions presented the expected physical behavior, and we concluded that this numerical library was successful for the accomplished simulations.

Keywords: algebraic systems of equations, numerical reservoir simulation, PETSc, wellbore pressure.

DOI: 10.5281/zenodo.14569268

N.S. Al-Mohannadi. Simulation of Horizontal Well Tests. PhD thesis, Colorado School of Mines, Golden, USA, 2004.

K. Aziz and A. Settari. Petroleum Reservoir Simulation. Elsevier Applied Science, New York, USA, 1990.

S. Balay, S. Abhyankar, M. F. Adams, S. Benson, J. Brown, P. Brune, K. Buschelman, E. M. Constantinescu, L. Dalcin, A. Dener, V. Eijkhout, J. Faibussowitsch, W. D. Gropp, V. Hapla, T. Isaac, P. Jolivet, D. Karpeev, D. Kaushik, M. G. Knepley, F. Kong, S. Kruger, D. A. May, L. C. McInnes, R. T. Mills, L. Mitchell, T. Munson, J. E. Roman, K. Rupp, P. Sanan, J. Sarich, B. F. Smith, S. Zampini, H. Zhang, and J. Zhang. PETSc Web page, 2024.

S. Bhowmick, D. Kaushik, L. McInnes, B. Norris, and P. Raghavan. Parallel adaptive solvers in compressible PETSc-FUN3D simulations. In Anil Deane, Akin Ecer, James McDonough, Nobuyuki Satofuka, Gunther Brenner, David R. Emerson, Jacques Periaux, and Damien Tromeur-Dervout, editors, Parallel Computational Fluid Dynamics 2005, pages 277–284. Elsevier, Amsterdam, 2006.

D. Boffi, F. Credali, L. Gastaldi, and S. Scacchi. A parallel solver for fluid–structure interaction problems with Lagrange multiplier. Mathematics and Computers in Simulation, 220:406–424, 2024.