Your search keyword '"-Rahman, Saeed-ur"' showing total 4 results

1. Analytical and Computational Approaches for Bi-Stable Reaction and p-Laplacian Diffusion Flame Dynamics in Porous Media.

Author

Rahman, Saeed ur and Díaz Palencia, José Luis

Subjects

*POROUS materials, *TRAVELING waves (Physics), *FLAME, *PERTURBATION theory, *SINGULAR perturbations, *FLAME temperature, *DIFFUSION

Abstract

In this paper, we present a mathematical approach for studying the changes in pressure and temperature variables in flames. This conception extends beyond the traditional second-order Laplacian diffusion model by considering the p-Laplacian operator and a bi-stable reaction term, thereby providing a more generalized framework for flame diffusion analysis. Given the structure of our equations, we provide the boundedness and uniqueness of the solutions in a weak sense from both analytical and numerical approaches. We further reformulate the governing equations in the context of traveling wave solutions, applying singular geometric perturbation theory to derive the analytical expressions of these profiles. This theoretical development is complemented by numerical assessments, which not only validate our theoretical predictions, but also optimize the traveling wave speed to minimize the error between numerical and analytical solutions. Additionally, we explore self-similar structured solutions. The paper then concludes with a perspective on future research, with emphasis being placed on the need for experimental validation in laboratory settings. Such empirical studies could test the robustness of our model and allow for refinement based on actual measurements, thereby broadening the applicability and accuracy of our findings in practical scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

2. Regularity, Asymptotic Solutions and Travelling Waves Analysis in a Porous Medium System to Model the Interaction between Invasive and Invaded Species.

Author

Díaz Palencia, José Luis, Roa González, Julián, Rahman, Saeed Ur, and Redondo, Antonio Naranjo

Subjects

POROUS materials, WAVE analysis, INTRODUCED species, PERTURBATION theory, ADVECTION

Abstract

This work provides an analytical approach to characterize and determine solutions to a porous medium system of equations with views in applications to invasive-invaded biological dynamics. Firstly, the existence and uniqueness of solutions are proved. Afterwards, profiles of solutions are obtained making use of the self-similar structure that permits showing the existence of a diffusive front. The solutions are then studied within the Travelling Waves (TW) domain showing the existence of potential and exponential profiles in the stable connection that converges to the stationary solutions in which the invasive species predominates. The TW profiles are shown to exist based on the geometry perturbation theory together with an analytical-topological argument in the phase plane. The finding of an exponential decaying rate (related with the advection and diffusion parameters) in the invaded species TW is not trivial in the nonlinear diffusion case and reflects the existence of a TW trajectory governed by the invaded species runaway (in the direction of the advection) and the diffusion (acting in a finite speed front or support). [ABSTRACT FROM AUTHOR]

Published

2022

3. Analysis of Solutions, Asymptotic and Exact Profiles to an Eyring–Powell Fluid Modell.

Author

Díaz, José Luis, Rahman, Saeed Ur, Sánchez Rodríguez, Juan Carlos, Simón Rodríguez, María Antonia, Filippone Capllonch, Guillermo, and Herrero Hernández, Antonio

Subjects

*ONE-dimensional flow, *ANALYTICAL solutions, *PERTURBATION theory, *FLUIDS, *UNSTEADY flow

Abstract

The aim of this article was to provide analytical and numerical approaches to a one-dimensional Eyring–Powell flow. First of all, the regularity, existence, and uniqueness of the solutions were explored making use of a variational weak formulation. Then, the Eyring–Powell equation was transformed into the travelling wave domain, where analytical solutions were obtained supported by the geometric perturbation theory. Such analytical solutions were validated with a numerical exercise. The main finding reported is the existence of a particular travelling wave speed a = 1.212 for which the analytical solution is close to the actual numerical solution with an accumulative error of < 10 − 3 . [ABSTRACT FROM AUTHOR]

Published

2022

4. Liouville-Type Results for a Two-Dimensional Stretching Eyring–Powell Fluid Flowing along the z -Axis.

Author

Díaz, José L., Rahman, Saeed ur, and Nouman, Muhammad

Subjects

*FLUID flow, *THREE-dimensional flow

Abstract

The purpose of this study is to establish Liouville-type results for a three-dimensional incompressible, unsteady flow described by the Eyring–Powell fluid equations. The fluid is studied in a plane Ω p while it moves along the z-axis. Therefore the main functions to analyze are given by u (x , y , z , t) and v (x , y , z , t) , belonging to Ω p . The results are obtained for globally bounded initial data as well as their corresponding derivatives, and the variations in velocity along the z-axis belong to the space L 2 and B M O . Under such conditions, Liouville-type results are obtained and extended to L p ,   p > 2. [ABSTRACT FROM AUTHOR]

Published

2022