Numerical experiments on the MAC code for a slow flow

One goal of the QUELL experiment is the validation of numerical codes for the simulation of thermo-hydraulic transients in Cable-in-Conduit Conductors with Central Channel (C 5 ). The validation of Gandalf has focused on 17 quench propagation runs. In general, the good global agreement of the simula

The paper shows the implementation of a 3D simulation code for turbulent flow and combustion processes in full-scale utility boilers on an Intel Paragon XP/S computer. For the portable parallelization, an explicit approach is chosen using a domain decomposition method for the static subdivision of t

## Abstract Three variational statements for the slow time‐independent flow of a Navier‐Poisson fluid are derived. All of these statements are suitable as the bases of finite elements. The first statement is applied successfully to several flow situations.

Using the technique of flux vector splitting, it is shown that one-dimensional, inviscid, compressible-flow equations possess a split conservation form. Some attractive features of this form for the design of finite-difference solution schemes are discussed. Based on the split form, two solution the