Computational methods in transport : verification and validation

The focus of this book deals with a cross cutting issue affecting all transport disciplines, whether it be photon, neutron, charged particle or neutrino transport. That is, verification and validation. In this book, we learn what the astrophysicist, atmospheric scientist, mathematician or nuclear engineer do to assess the accuracy of their code. What convergence studies, what error analysis, what problems do each field use to ascertain the accuracy of their transport simulations.

Verification (Mostly) for High Energy Density Radiation Transport: Five Case Studies.- A General Strategy for Physics-Based Model Validation Illustrated with Earthquake Phenomenology, Atmospheric Radiative Transfer, and Computational Fluid Dynamics.- Spectral Solvers to Non-Conservative Transport for Non-Linear Interactive Systems of Boltzmann Type.- The Art of Analytical Benchmarking.- Implicit Monte Carlo Radiation Transport Simulations of Four Test Problems.- The Prompt Spectrum of a Radiating Sphere: Benchmark Solutions for Diffusion and Transport.- Some Verification Problems with Possible Transport Applications.- Canopy Reflectance Model Benchmarking: RAMI and the ROMC.- Uncertainty and Sensitivity Analysis for Models of Complex Systems.- A Brief Overview of the State-of-the-Practice and Current Challenges of Solution Verification.- Expert Panel Opinion and Global Sensitivity Analysis for Composite Indicators.- A Practical Global Sensitivity Analysis Methodology for Multi-Physics Applications.