T. Arbogast et I. Yotov, A NON-MORTAR MIXED FINITE-ELEMENT METHOD FOR ELLIPTIC PROBLEMS ON NONMATCHING MULTIBLOCK GRIDS, Computer methods in applied mechanics and engineering, 149(1-4), 1997, pp. 255-265
We consider the approximation of second-order elliptic equations on do
mains that can be described as a union of sub-domains or blocks. We as
sume that a grid is defined on each block independently, so that the r
esulting grid over the entire domain need not be conforming (i.e. matc
h) across the block boundaries. Several techniques have been developed
to approximate elliptic equations on multiblock grids that utilize a
mortar finite element space defined on the block boundary interface it
self. We define a mixed finite element method that does not use such a
mortar space. The method has an advantage in the case where adaptive
local refinement techniques will be used, in that there is no mortar g
rid to refine. As is typical of mixed methods, our method is locally c
onservative element-by-element; it is also globally conservative acros
s the block boundaries. Theoretical results show that the approximate
solution converges at the optimal rate to the true solution. We presen
t computational results to illustrate and confirm the theory.