Application of orthogonal collocation on finite elements to a flow problem

The method of orthogonal collocation on finite elements is described for solution of ordinary and partial differential equations. Benefits and limitations of the method are outlined by comparison with Galerkin finite element methods. Practical difficulties are given which arise in the application

In this paper, the subcritical compressible small disturbance equation is employed to simulate the nonlifting flow over a 6% thick circular arc. The governing nonlinear elliptic boundary value problem is solved numerically with the collocation finite element technique using the Hermite bicubic shape

Percolation theory of two phase relative. permeability. SPE Paper No. 11014. Subscripts cond conduction conv convection e electrical (relating to current flow) eq equivalent f local fluctuation h hydraulic (relating to fluid flow) m effective medium property R referring to a pore of radius R

Ozone transport in a rigid single-pathway anatomic model of the lung was analyzed by a stable convergent numerical algorithm, the method of orthogonal collocation on finite elements. The simulations predicted the dynamic behavior of gas phase concentration profiles for both ozone and an insoluble in