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| Main Authors: | , , |
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| Format: | Preprint |
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2025
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| Online Access: | https://arxiv.org/abs/2504.16001 |
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| _version_ | 1866910916584407040 |
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| author | Skurativskyi, Sergii Mykulyak, Sergiy Skurativska, Inna |
| author_facet | Skurativskyi, Sergii Mykulyak, Sergiy Skurativska, Inna |
| contents | This paper deals with a mathematical model for oil filtration in a porous medium and its self-similar and traveling wave regimes. The model consists of the equation for conservation mass and dependencies for porosity, permeability, and oil density on pressure. The oil viscosity is considered to be the experimentally expired parabolic relationship on pressure. To close the model, two types of Darcy law are used: the classic one and the dynamic one describing the relaxation processes during filtration. In the former case, self-similar solutions are studied, while in the latter case, traveling wave solutions are the focus. Using the invariant solutions, the initial model is reduced to the nonlinear ordinary differential equations possessing the trajectories vanishing at infinity and representing the moving liquid fronts in porous media. To approximate these solutions, we elaborate the semi-analytic procedure based on modified Pade approximants. In fact, we calculate sequentially Pade approximants up to 3d order for a two-point boundary value problem on the semi-infinite domain. A good agreement of evaluated Pade approximants and numerical solutions is observed. The approach provides relatively simple quasi-rational expressions of solutions and can be easily adapted for other types of model's nonlinearity. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2504_16001 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Approximation of Invariant Solutions to the Nonlinear Filtration Equation by Modified Pade Approximants Skurativskyi, Sergii Mykulyak, Sergiy Skurativska, Inna Mathematical Physics 35K55, 35L75, 35C06, 35C07, 41A21, 70K99, 93-10 This paper deals with a mathematical model for oil filtration in a porous medium and its self-similar and traveling wave regimes. The model consists of the equation for conservation mass and dependencies for porosity, permeability, and oil density on pressure. The oil viscosity is considered to be the experimentally expired parabolic relationship on pressure. To close the model, two types of Darcy law are used: the classic one and the dynamic one describing the relaxation processes during filtration. In the former case, self-similar solutions are studied, while in the latter case, traveling wave solutions are the focus. Using the invariant solutions, the initial model is reduced to the nonlinear ordinary differential equations possessing the trajectories vanishing at infinity and representing the moving liquid fronts in porous media. To approximate these solutions, we elaborate the semi-analytic procedure based on modified Pade approximants. In fact, we calculate sequentially Pade approximants up to 3d order for a two-point boundary value problem on the semi-infinite domain. A good agreement of evaluated Pade approximants and numerical solutions is observed. The approach provides relatively simple quasi-rational expressions of solutions and can be easily adapted for other types of model's nonlinearity. |
| title | Approximation of Invariant Solutions to the Nonlinear Filtration Equation by Modified Pade Approximants |
| topic | Mathematical Physics 35K55, 35L75, 35C06, 35C07, 41A21, 70K99, 93-10 |
| url | https://arxiv.org/abs/2504.16001 |