Convergence analysis of a DDFD method for flow problems in homogeneous porous media

A new Finite Difference method called Discrete Duality Finite Difference method (DDFD method in short) to solve on quadrilateral meshes 2D-flow problems in homogeneous porous media with full diffusion matrix with constant coefficients is proposed and analyzed in the present work. We start with the derivation of the discrete problem. A result of existence and uniqueness of the solution for that problem is given via the positive definiteness of its associated matrix. Their theoretical $p$-roperties, namely, stability and error estimates (in discrete energy norm, $L^2$-norm, relative $L^2$-norm, $L^\infty$-norm), are investigated. Numerical tests are provided.