Quantity 1 of the guide reports MR fabrics technological know-how, engineering and layout. preliminary sections evaluate complex and novel fabrics utilised in MRs. the amount concludes with a piece detailing complicated modelling, simulation and optimisation concepts for MRs.Volume 2 of the guide studies reactor varieties and business functions. the hole part studies chosen varieties of membrane reactor and their integration in validated business strategies. the next sections then tackle purposes in chemical and hydrogen construction, delivery, environmental engineering and biotechnology. Read more...
Part 1 Polymeric, dense metal and composite membranes for membrane reactor Polymeric membranes for membrane reactors; Inorganic membrane reactors for hydrogen creation: an outline with specific emphasis on dense metal membrane fabrics; Palladium-based composite membranes for hydrogen separatio in membrane reactors; choices to palladium in membranes for hydrogen separation: nickel, niobium and vanadium alloys, ceramic helps for steel alloys and porous glass membranes; Nanocomposite membranes for membrane reactors --
Part 2 Zeolite, ceramic and carbon membranes and catalysts for membrane reactors: Zeolite membrane reactors; Dense ceramic membranes for membrane reactors; Porous ceramic membranes for membrane reactors; Microporous silica membranes: basics and functions in membrane reactors for hydrogen separation; Carbon-based membranes for membrane reactors; Advances in catalysts for membrane reactors --
Part three Membrane reactor modelling, simulation and optimisation: Mathematical modelling of membrane reactors: assessment of concepts and functions for the modelling of a hydrogen-selective membrane reactor; Computational fluid dynamics (CFD) research of membrane reactors: simulation of unmarried- and multi-tube palladium membrane reactors for hydrogen restoration from cyclohexane; Computational fluid dynamics (CFD) research of membrane reactors: simulation of a palladium-based membrane reactor in gasoline phone micro-cogenerator method; Computational fluid dynamics (CFD) research of membrane reactors: modelling of membrane bioreactors for municipal wastewater therapy; versions of membrane reactors in line with synthetic neural networks and hybrid techniques; evaluate of the major homes of fabrics utilized in membrane reactors through quantum computational methods; Non-equilibrium thermodynamics for the outline of shipping of warmth and mass throughout a. Vol. 1. primary fabrics technology, layout and optimisation
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Additional resources for Handbook of Membrane Reactors.
Finally, some applications are presented and advantages and limitations of existing technologies are discussed. Next, Part IV deals with membrane reactors in environmental engineering, biotechnology and medicine. In particular, Chapter 19 (Cassano, Figoli, Galiano, Argurio and Molinari) provides a comprehensive overview of emerging techniques of particular interest, such as supported liquid membranes, pervaporation, membrane bioreactors and complexation-ultrafiltration developed as eco-friendly processes for treating wastewaters from different sources.
3 © Woodhead Publishing Limited, 2013 4 Handbook of membrane reactors Consequently, membrane bioreactors are an example of the combination of two unit operations in one step; for example, membrane filtration with the chemical reaction. In a typical membrane bioreactor, as well as acting as a support for the biocatalyst, the membrane can be a very effective separation system for undesirable reactions or products. The removal of a reaction product from the reaction environment can be easily achieved thanks to the membrane selective permeability, and this is of great advantage in thermodynamically unfavourable conditions, such as reversible reactions or product-inhibited enzyme reactions.
Furthermore, the enzyme remains in its natural environment, therefore a high level of initial activity can be maintained for longer period. , 2008; Cheryan and Mehaia, 1986). 3 Membranes as enzyme supports and for downstream processing Membranes represent good supports for enzyme immobilization because they enable the integration of biocatalysis and separation. Often, the available commercial membranes require modifications to make them suitable for enzyme immobilization. Different immobilization techniques can be used on such suitable membranes, depending on many factors mainly related to enzymes and membrane properties and bioprocess performances.
Handbook of Membrane Reactors.