Computational and numerical challenges in environmental modelling

A study of highly efficient stochastic sequences for multidimensional sensitivity analysis, Comparative numerical analysis using reduced-order modeling strategies for nonlinear large-scale systems, Stability of the Richardson extrapolation combined with some implicit Runge-Kutta methods, Editorial: Numerical algorithms for scientific and engineering applications, Estimating airborne particulate emissions using a finite-volume forward solver coupled with a Bayesian inversion approach, Sensitivity studies of pollutant concentrations calculated by the UNI-DEM with respect to the input emissions, Generalizations and error analysis of the iterative operator splitting method, Positivity-preserving finite volume difference schemes for atmospheric dispersion models with degenerate vertical diffusion, Monte Carlo algorithms for evaluating Sobol' sensitivity indices, Sensitivity analysis of an air pollution model with using innovative Monte Carlo methods in calculating multidimensional integrals, Efficient implementation of stable Richardson extrapolation algorithms, A Parallel Numerical Solution Approach for Nonlinear Parabolic Systems Arising in Air Pollution Transport Problems, Eulerian and Lagrangian Approaches for Modelling of Air Quality, Coordinate Transformation Approach for Numerical Solution of Environmental Problems, Impact of Climatic Changes on Pollution Levels, Operator splittings and spatial approximations for evolution equations, Stability Properties of Explicit Runge-Kutta Methods Combined with Richardson Extrapolation, Numerical solution of the Maxwell equations in time-varying media using Magnus expansion, Richardson extrapolation combined with the sequential splitting procedure and the \(\theta \)-method, Advanced Quasi-Monte Carlo Algorithms for Multidimensional Integrals in Air Pollution Modelling, Implementation of sparse matrix algorithms in an advection-diffusion-chemistry module, Studying the sensitivity of pollutants' concentrations caused by variations of chemical rates, Stability of the Richardson extrapolation applied together with the \(\theta \)-method, Explicit Runge-Kutta methods combined with advanced versions of the Richardson extrapolation, Time Discretization/Linearization Approach Based on HOC Difference Schemes for Semilinear Parabolic Systems of Atmosphere Modelling, Using Advanced Mathematical Tools in Complex Studies Related to Climate Changes and High Pollution Levels, A Splitting Numerical Method for Primary and Secondary Pollutant Models, Additive and iterative operator splitting methods and their numerical investigation, Development of a data assimilation algorithm, Preparing input data for sensitivity analysis of an air pollution model by using high-performance supercomputers and algorithms, Convergence of operator splittings for locally Lipschitz-continuous operators in Banach spaces, Editorial: Efficient algorithms for large scale scientific computations: introduction, Application of Richardson extrapolation for multi-dimensional advection equations, Studying absolute stability properties of the Richardson extrapolation combined with explicit Runge-Kutta methods, Qualitative Analysis of the Crank-Nicolson Method for the Heat Conduction Equation, Parallelization of Advection-Diffusion-Chemistry Modules, Richardson Extrapolated Numerical Methods for Treatment of One-Dimensional Advection Equations, Richardson-extrapolated sequential splitting and its application, Fitted finite volume positive difference scheme for a stationary model of air pollution, Efficient numerical methods for large-scale scientific computations: introduction, Solving advection equations by applying the Crank-Nicolson scheme combined with the Richardson extrapolation, Discrete maximum principle for the finite element solution of linear non-stationary diffusion-reaction problems, On the additive splitting procedures and their computer realization, Efficient implementation of advanced Richardson extrapolation in an atmospheric chemical scheme

• SuperLU-DIST
• LAPACK
• RODAS
• Simulink
• MPI
• Ode15s
• ADM