A Novel Primal-mixed Finite Element Approach for Heat Transfer in Solids

A numerical model for the simulation of flow and transport of organic compounds undergoing bacterial oxygen-and nitrate-based respiration is presented. General assumptions regarding microbial population, bacteria metabolism and effects of oxygen, nitrogen and nutrient concentration on organic substr

In this paper, a mixed stress formulation for linear elastodynamic analysis based on a modified Hellinger-Reissner functional and a consistent approach for selecting finite element approximations are presented. The key idea in this new approach is to choose stress approximations by taking into accou

We develop numerical methods for the simulation of heat and mass transfer in the ground. We use the mixed finite element method for the computation of both the liquid pressure and the temperature, so that the mass is locally and globally well conserved and the computation of the fluid velocity is ve

A variational principle is presented for ICRF heating calculations in real tokamak geometries with the minimum assumptions on the electromagnetic potential field structure. Different regimes for the ratio A/AC of the parallel scalelength of the field A and of the parallel scalelength of the resonanc