Dissolution‐driven convection of a power‐law fluid in a porous medium in the presence of chemical reaction

Author:

Reddy G. Shiva Kumar1,Ragoju Ravi1ORCID,Reddy N. Keerthi2,Edla Damodar Reddy3

Affiliation:

1. Department of Applied Sciences National Institute of Technology Goa Ponda Goa India

2. Department of Mechanical Engineering Ulsan National Institute of Science and Technology (UNIST) Ulsan South Korea

3. Department of Computer Science and Engineering National Institute of Technology Goa Ponda Goa India

Abstract

AbstractThe flow through porous medium accounts for numerous applications in various fields namely, agriculture, geothermal sciences, and engineering. Furthermore, dissolution‐driven convection in porous media has grabbed great attention in recent years due to its practical applications in long‐term geological storage of carbon dioxide, in the production of mineral deposits, and other industrial applications. In this regard, the current numerical analysis focuses on addressing the thermal instability of dissolution‐driven convective phenomena of a power‐law fluid through a porous horizontal domain with a first‐order chemical reaction. For linear stability analysis, the method of normal modes has been employed to solve governing dimensionless equations which give rise to an eigenvalue problem. The bvp4c routine in MATLAB R2020a has been used to solve the raised problem for the onset of convection. The impact of Damköhler number, Péclet number, and power‐law index on the onset of convection has been investigated. The role of these critical parameters is found to be highly significant in stabilizing the system. An increase in the power‐law index causes stabilization or destabilization in the system, depending on the Péclet number. An enhancement in the magnitude of Damköhler number makes the system stable for all values of the Péclet number. Also, Damköhler and critical Rayleigh number are inter‐related, that is, an increment in Damköhler number results in the enhancement of critical Rayleigh numbers, which in turn leads to stabilization of the system. The critical wave number is observed to have a remarkable influence on Damköhler number as well as power‐law index.

Publisher

Wiley

Subject

Fluid Flow and Transfer Processes,Condensed Matter Physics

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