InhaltsangabeCombustion of Coal in Pressurized Fluidized Bed Reactors.- Parallel Evolutionary Algorithms for Optimizing the Unifac Matrix on Workstation Clusters.- Euler/Euler Modelling of Fluidized Bed Fluiddynamics.- Dynamic Dimension Reduction in ODE Models.- Compact Finite Difference Methods for the Solution of Chemical Engineering Problems.- Advantages of an Adaptive Method: The Simulation of a Fixed-Bed Reactor with Periodic Flow Reversal.- A Mathematical Model of Emulsion Polymerization.- Differential-Algebraic Systems in the Chemical Process Simulation.- Optimal Temperature Control of Semibatch Polymerization Reactors.- Micro- and Macro-Scales in Porous Reactors and Their Modelling.- Application of Numerical Methods in Process Engineering.- Simulation of Reacting Particles Applying Orthogonal Collocation on Finite Elements.- Partitioning in Reaction Kinetics.- Qualitative Properties of a Model for Carrier Facilitated Groundwater Contaminant Transport.- Numerical Solution of Reaction-Diffusion Equations.- Parameter Estimation and Optimal Control for Dynamic Chemical Processes.- Analysis of Unsteady State Chemical Reactors by Continuation Methods.- On-Line Recognition of Critical States in Chemical Reaction Systems.- PDEX1M - A Software Package for the Numerical Solution of Parabolic Systems in One Space Dimension.- Modelling and simulation of complex biochemical processes, taking the Biogas Tower Reactor as an example.- Subspace Search Methods for Large Scale Nonlinear Optimization.- Computersimulation of the Self-Heating and Auto-Ignition of Activated Carbon Adsorbers.- Optimization of Three-Dimensional Catalyst Pore Structures.- Bacterial Growth and Bioremediation.- Numerical Treatment of Diffusion-Reaction-Equations with the Method of Lines.- An Adaptive Algorithm for Solving the Biharmonic Equation on Sparse Grids.- Parameter Estimation in Chemical Engineering, a Case Study for Resin Production.- Modelling of Chemical Reaction Systems - Parameter Redundancy and Effective Kinetics.- A Wavelet-Galerkin Method Applied to Separation Processes.- Application of Automatically Reduced Reaction Mechanisms in the Calculation of Turbulent Reactive Flows.