A numerical model for the analysis of stability and quench characteristics of forced-flow cooled superconductors

A numerical analysis of the thermal stability of a superconductor composite cooled by forced-flow supercritical helium has been performed. The analytical model consists of simultaneous two-dimensional coolant flow equations and a one-dimensional superconductor equation. The equations of conservation

The stability of a forced-flow cooled superconducting coil is investigated by use of numerical simulation. A numerical code to integrate the simultaneous partial differential equation system composed of the 1D hydrodynamic equations and the 1D thermal conduction equation has been developed. By using

The accuracy and stability properties of several two-level and three-level difference schemes for solving the shallow water model are analyzed by the linearized Fourier Method. The effects of explicit or implicit treatments of the gravity, Coriolis, convective and friction terms on accuracy and stab

The observed phenomenon of slip between the layers of a flowing slurry is modelled mathematically by a finite-element-based numerical technique. This technique enables us to quantify variables such as the slip velocity and shear stress distribution at the interlayer boundary and the pressure drop wi