Contents:
1. New Methodologies for Multiphase Bioreactors 1: Hydrodynamic and Mass Transfer Characteristics of Multistage Slurry Reactors 2. New Methodologies for Multiphase Bioreactors 2: Image Analysis and Multiphase Bioreactors 3. New Methodologies for Multiphase Bioreactors 3: data Acquisition, Modelling and Control 4. Design and Modelling of Immobilised Biocatalytic Reactors 5. Advances in the Selection and Design of Two-Liquid Phase Biocatalytic Reactors 6. Enzymatic Membrane Reactors 7. Reversed Micellar Bioreaction Systems: Principles and Operation 8. Solid-to-Solid Bioconversions: Batch or Continuous? 9. Solid/Gas Systems, Theory and Applications 10. Biofilm Reactors 11. Pulsing Bioreactors 12. Design of Liquid-Liquid-Solid Fluidises-Bed Bioreactors 13. Flocculation Bioreactors 14. Bioreactor Design For Plant Cell Suspension Cultures 15. Lethal Effects of Bubbles in Animal-Cell Culture 16. A Low-Cost Technology for Entomopathogenic Nematode Large-Scale Production 17. Marine Sponges as Biocatalysts

One of the charms of mathematics is the contrast between its generality and its applicability to concrete, even everyday, problems. Branching processes are typical in this. Their niche of mathematics is the abstract pattern of reproduction, sets of individuals changing size and composition through their members reproducing; in other words, what Plato might have called the pure idea behind demography, population biology, cell kinetics, molecular replication, or nuclear ?ssion, had he known these scienti?c ?elds. Even in the performance of algorithms for sorting and classi?cation there is an inkling of the same pattern. In special cases, general properties of the abstract ideal then interact with the physical or biological or whatever properties at hand. But the population, or bran- ing, pattern is strong; it tends to dominate, and here lies the reason for the extreme usefulness of branching processes in diverse applications. Branching is a clean and beautiful mathematical pattern, with an intellectually challenging intrinsic structure, and it pervades the phenomena it underlies.

Bioinspired Materials for Medical Applications examines the inspiration of natural materials and their interpretation as modern biomaterials. With a strong focus on therapeutic and diagnostic applications, the book also examines the development and manipulation of bioinspired materials in regenerative medicine. The first set of chapters is heavily focused on bioinspired solutions for the delivery of drugs and therapeutics that also offer information on the fundamentals of these materials. Chapters in part two concentrate on bioinspired materials for diagnosis applications with a wide coverage of sensor and imaging systems With a broad coverage of the applications of bioinspired biomaterials, this book is a valuable resource for biomaterials researchers, clinicians, and scientists in academia and industry, and all those who wish to broaden their knowledge in the allied field.

This volume gathers papers originally presented at the 3rd Workshop on Branching Processes and their Applications (WBPA15), which was held from 7 to 10 April 2015 in Badajoz, Spain (http://branching.unex.es/wbpa15/index.htm). The papers address a broad range of theoretical and practical aspects of branching process theory. Further, they amply demonstrate that the theoretical research in this area remains vital and topical, as well as the relevance of branching concepts in the development of theoretical approaches to solving new problems in applied fields such as Epidemiology, Biology, Genetics, and, of course, Population Dynamics. The topics covered can broadly be classified into the following areas: 1. Coalescent Branching Processes 2. Branching Random Walks 3. Population Growth Models in Varying and Random Environments 4. Size/Density/Resource-Dependent Branching Models 5. Age-Dependent Branching Models 6. Special Branching Models 7. Applications in Epidemiology 8. Applications in Biology and Genetics Offering a valuable reference guide to contemporary branching process theory, the book also explores many open problems, paving the way for future research.