that elegantly combines the chemistry and engineering involved to describe the conception and improvement of chromatographic processes.
It also covers recent advances in preparative chromatographic processes for the separation of "smaller" molecules using standard
laboratory equipment as well as the detailed conception of industrial chemical plants. The increase in biopharmaceutical substances is
reflected by new and revised chapters on different modifications of continuous chromatography as well as ion-exchange chromatography and
other separation principles widely used in biochromatography.
Following an introductory section on the history of chromatography, the current state of research and the design of chromatographic processes, the book goes on to define the general terminology. There then follow sections on stationary phases, selection of chromatographic
systems and process concepts. A completely new chapter deals with engineering and operation of chromatographic equipment. Final chapters on modeling and determination of model parameters as well as model based design, optimization and control of preparative chromatographic processes allow for optimal selection of chromatographic processes.
Essential for chemists and chemical engineers in the chemical, pharmaceutical, and food industries.
Keywords: process engineering, process simulation, process optimization, chemical industries, chromatographic systems, process-scale preparative chromatography, separation of mixtures, chemical engineering, Chromatography / Separation Techniques, Pharmaceutical & Medicinal Chemistry, Chromatography / Separation Techniques, Pharmaceutical & Medicinal Chemistry