ABSTRACT:
Addressing all aspects of the design, modeling and simulation of chromatographic processes, this result-oriented primer provides a practical guide to all the necessary approaches, methodologies and tools. Beginning with key definitions and concepts, it builds up from the most simple to the most complex situations, including multicomponent systems, non-uniform velocity profiles, bed instability, particle size distributions, and the influence of complex environments on chromatographic process design. In addition to covering classical approaches, it introduces efficient tools for investigating chromatographic processes, such as the 'Russian-Lego' approach for linear systems, phenomenological models, and specific shortcuts for deriving the key properties of industrial processes. With an emphasis on real-world problems and applications, step-by step modeling design guidelines, and detailed exercises for self-assessment, this is a must-have guide for practitioners and researchers working in chemical, biochemical, food and pharmaceutical engineering.
KEY FEATURES:
- Includes step-by-step modeling design guidelines to rationalize design and cut design time and cost
- Addresses all aspects of modeling and simulation, within a consistent theoretical and notational framework
- Demonstrates the connection between modeling and complex real-world interactions
CONTENTS:
- An approach to modeling chromatographic processes
- Linear chromatography: the Russian Lego
- Non-linear chromatography: equilibrium theory
- Fluid-solid phase equilibria
- Mass transfer
- Hydrodynamics of chromatographic columns
- Simulating chromatographic columns
- Counter-current systems
- Chromatographic models and their optimization
- Addressing a few industrial problems
- Conclusion
REFERENCE:
Chromatographic Processes - Modeling, Simulation, and Design, Roger-Marc Nicoud, 672 pages, Cambridge University Press, Cambridge Series in Chemical Engineering, New-York (2015), ISBN: 9781107082366.