Integrated Membrane Reactors explores recent developments and future perspectives in the area of membrane reactor (MR) systems. It includes fundamental principles, the different types of membrane materials (such as polymeric and inorganic), the different types of membrane reactors (such as Micro MRs, Enzymatic MRS, Photo-catalytic MRs, Pervaporation MRs, Electrochemical MRs, etc.), their industrial perspective and, finally, there also is an economic evaluation of the metallic MRs. The book provides an extensive review in the area of MRs for each kind of application present in the specialized literature and discusses their modelling and design approaches necessary for MR systems validation in achieving high conversions, energy savings, high yields and high hydrogen (or others) products of the reactions studied.

Current Trends and Future Developments in (Bio-) Membranes: Recent Advances in Metallic Membranes presents recent developments in metallic membranes used in membrane reactors to save energy. It also offers a comprehensive review of the present state-of-the-art on the fabrication and design of metallic membranes and membrane reactors, considering various applications. This book focuses on the structure, preparation, characterization and applications of metallic membranes and membrane reactors, as well as transport mechanisms and simulation aspects. As recent research has focused on the development of metallic membranes and their applications, this book is an ideal reference on different production procedures and their use.

Mathematics is an effective tool to study and model the world in which we live. Schematically, a model is the representation of a system or a process obtained by substituting to the real phenomenon another one in a more familiar field through simplifications, abstractions and analogies. In this book the authors introduce tools needed to carry out computer simulations of membrane reactors. These simulations serve as a complement to conventional experiments, enabling us to learn something new, something that cannot be found out in other ways. This book emphasises the utility of mathematical modelling as an effective tool for predicting/simulating various membrane reactors processes working under different scenarios. The book is divided in 11 chapters dealing with the approach to different membrane reactors. The separation properties of the membranes are introduced first and used in simple simulations in which no reaction takes place. Afterwards, different approaches for simulation of different membrane reactors (porous, dense, zeolitic, metallic and polymeric, photocatalytic, bio- membrane reactors) are introduced and used is base case studies. Finally, the last chapter briefly introduces new numerical techniques applied to membrane and membrane reactors with particular attention to some aspects of quantum mechanics.