A cheapest nonconforming rectangular finite element for the stationary Stokes problem

We introduce a least degrees of freedom nonconforming finite element pair to approximate the Stokes equations based on quadrilateral meshes. The finite element space for the velocity field is composed of the P1P1-nonconforming quadrilateral element plus only one additional global DSSY (Douglas–Santos–Sheen–Ye) or RT (Rannacher–Turek) type of bubble function. The pressure field is approximated by the piecewise constant function. We show that the discrete problem is nonsingular and the element pair satisfies a weak discrete inf–sup condition. Several numerical examples are shown to confirm the efficiency and reliability of the proposed method.

► We propose a cheapest lower-order finite element method for the Stokes problem. ► The velocity space is approximated by the P1-nonconforming quadrilateral element plus only one global bubble function. ► The pressure is approximated by the piecewise constant element. ► We show that the above pair satisfies the inf–sup condition weakly. ► We provide numerical examples to confirm the efficiency of the proposed finite element method.