Immobilized Cells: Basics and ApplicationsR.M. Buitelaar, C. Bucke, J. Tramper, R.H. Wijffels This publication contains full papers of both oral and poster presentations of the symposium "Immobilized Cells: Basics and Applications" that was held in Noordwijkerhout, The Netherlands, 26-29 November 1995. This volume covers recent developments in the field of immobilization e.g.: new support materials, characterization of support materials, kinetic characterizations, dynamic modelling, bioreactor types, scale up and applications are also given. Applications in the field of medicine, fermentation technology, food technology and environmental technology are described. Guidelines for research with immobilized cells. Based on the scientific sessions a strategy of research and methods for characterization of immobilized cells, especially in view of applications are given. The goal was to relate basic research to applications and to extract guidelines for characterization of immobilized cells in view of process design and application from the contributions. The manuscripts presented in these proceedings give an extensive and recent overview of the research and applications of immobilized-cell technology. |
Contents
17 | |
physiology mass transfer and dynamic modelling | 237 |
Immobilizedcell reactors | 495 |
Applications | 583 |
Guidelines | 829 |
835 | |
839 | |
Other editions - View all
Immobilized Cells: Basics and Applications : Proceedings of an International ... R. H. Wijffels No preview available - 1996 |
Common terms and phrases
1996 Elsevier Science 2-chlorophenol acetate acid activated sludge adsorption agar alginate beads alginate gel ammonia Appl B.V. All rights bacteria Basics and Applications batch biocatalyst biofilm biomass biomass concentration bioreactor buffer Ca-alginate calcium alginate carrageenan carrier Celite cell immobilization Chemical chitosan coefficient coli decrease degradation denitrification determined diameter diffusion dilution rate effect effluent Elsevier Science B.V. entrapped enzyme ethanol experimental fermentation Figure flow rate free cells gel beads glucose glycerol growth immobilised immobilized cells immobilized yeast increase initial k-carrageenan kinetics liquid mass transfer material matrix measured medium membrane method mg/L microbial Microbiol microorganisms morpholine nerol nitrification nitrogen obtained oxygen parameters particles pellets phase plasmid polymer pore production R.H. Wijffels R.M. Buitelaar reaction reactor removal samples solution stability strain substrate concentration surface suspended cells Table temperature Tramper Eds treatment viable volume wastewater yeast yeast cells
Popular passages
Page 24 - ... degradation. The glycosidic linkages are susceptible to both acid and alkaline degradation and oxidation by free radicals. However...
Page 84 - Universite Catholique de Louvain, Place Croix du Sud 1 — B1348 Louvain-la-Neuve, Belgium I'M Chimica Academiae Scientiarum Hungaricae, Tomut 111 (4), pp.