## Preprint 2020-01

## Sergio Caucao, Gabriel N. Gatica, Ricardo Oyarzúa, Nestor Sánchez:

### A fully-mixed formulation for the steady double-diffusive convection system based upon Brinkman-Forchheimer equations

### Abstract:

We propose and analyze a new mixed finite element method for the problem of steady double-diffusive convection in a fluid-saturated porous medium. More precisely, the model is described by the coupling of the Brinkman--Forchheimer and double-diffusion equations, in which the originally sought variables are the velocity and pressure of the fluid, and the temperature and concentration of a solute. Our approach is based on the introduction of the further unknowns given by the fluid pseudostress tensor, and the pseudoheat and pseudodiffusive vectors, thus yielding a fully-mixed formulation. Furthermore, since the nonlinear term in the Brinkman--Forchheimer equation requires the velocity to live in a smaller space than usual, we partially augment the variational formulation with suitable Galerkin type terms, which forces both the temperature and concentration scalar fields to live in L^4. As a consequence, the aforementioned pseudoheat and pseudo-diffusive vectors live in a suitable H(div)-type Banach space. The resulting augmented scheme is written equivalently as a fixed point equation, so that the well-known Schauder and Banach theorems, combined with the Lax--Milgram and Banach-Necas-Babuska theorems, allow to prove the unique solvability of the continuous problem. As for the associated Galerkin scheme we utilize Raviart--Thomas spaces of order kgeq 0 for approximating the pseudostress tensor, as well as the pseudoheat and pseudodiffusive vectors, whereas continuous piecewise polynomials of degree le k + 1 are employed for the velocity, and piecewise polynomials of degree le k for the temperature and concentration fields. In turn, the existence and uniqueness of the discrete solution is established similarly to its continuous counterpart, applying in this case the Brouwer and Banach fixed-point theorems, respectively. Finally, we derive optimal a priori error estimates and provide several numerical results confirming the theoretical rates of convergence and illustrating the performance and flexibility of the method.

This preprint gave rise to the following definitive publication(s):

**Sergio CAUCAO, Gabriel N. GATICA, Ricardo OYARZúA, Nestor SáNCHEZ: ***A fully-mixed formulation for the steady double-diffusive convection system based upon Brinkman-Forchheimer equations*. Journal of Scientific Computing, vol. 85, 2, article: 44, (2020).