Micro process engineering is approaching both academia and industry. With the provision of micro devices and systems by commercial suppliers, one main barrier for using these units has been eliminated. More and more they become familiar, thereby being one facet of the upheaval in chemical industry.
This book focuses on processes rather than on devices: what is 'before' and 'behind' micro device fabrication. A comprehensive and detailed overview is given on:
- A multi-faceted, hierarchic analysis of chemical micro process technology
- Modelling and simulation of micro reactors
- Liquid- and liquid/liquid-phase reactions
- Gas/liquid reactions
- Gas-phase reactions (heterogeneous catalysis)
Rezensionen / Stimmen
"In conclusion this is an excellent, comprehensive summary of the state-of-the-art in micro reactors and should be read by all process chemists and engineers interested in the field... every industrial library involved in process R&D and chemical manufacture should purchase a copy." (Organic Process Research & Development) "The critical evaluation of currently known microprocessors, the comprehensive analysis of the literature plus the numerous references make Chemical Micro Process Engineering a real handbook of chemical microtechnology, which will serve as a valuable information source for scientists of all disciplines. ... This book is a must for anyone interested in the application of microdevices to chemistry, and is of interest for chemists seeking new reactions, new conditions, and new catalysts, as well as for chemical engineers interested in process intensification... However, because of its highly informative contents with many references, analyses of literature data, and critical evaluations of existing microsystems, this book is a true handbook of microdevices applied to chemistry, from which readers can derive valuable information for their own work." (Angewandte Chemie I.E., Vol. 43, No. 48, 2004) "It is clear that this book will help the chemical engineer to identify a relevant microreactor to implement a given chemical reaction. In this period where time is more than ever money, this book will be useful to quickly investigate the capabilities of these new devices to replace conventional ones in respect to both economical and ecological reasons." (CIT - Chemie Ingenieur Technik)
Reihe
Auflage
Sprache
Verlagsort
Zielgruppe
Für Beruf und Forschung
Ingenieure für Chemie, Ingenieure für Verfahrenstechnik, Technische Chemiker, Verfahrenstechniker
Illustrationen
311
29 s/w Tabellen, 311 s/w Abbildungen
Illustrations
Maße
Gewicht
ISBN-13
978-3-527-30741-8 (9783527307418)
Schweitzer Klassifikation
Volker Hessel, born 1964, was appointed Vice Director R&D and Head of the Chemical Process Development Department at the Institut fur Mikrotechnik Mainz GmbH (IMM) in 2002. The development areas of his department encompass the fields of mixing and reaction engineering, process and engineering and heterogeneous catalysis, and electrochemical processes. In 1999 he became Head of the newly founded Department of Microreaction Technology, the predecessor organization of the above mentioned department. In 1996, he was appointed Group Leader for Microreaction Technology. In 1994, he joined the IMM as an employee, He obtained his Ph.D. at the University of Mainz in the field of organic chemistry in 1993, investigating structure-property relations of supramolecular structures. His is author of more than 70 publications in the field of organic chemistry and chemical micro process engineering and 15 patents. Steffen Hardt, born 1966, was appointed Head of the Fluidics & Simulation Department at Institut fur Mikrotechnik Mainz GmbH (IMM) in 2001. He joined IMM in 1997 as an employee and became Group Leader for modeling and simulation in 1999. The activities of his department are centred around the development and simulation of micro fluids systems. Among his areas of interest are fluidic actuators, multi-phase micro flows, micro mixers, gas-phase reactors and Lab-on-a-Chip systems. Before he became involved in micro fluidics, he worked in the field of theoretical elementary particle physics. He studied physics at the University of Giessen and the University of Washington/Seattle and obtained his Ph.D. with a thesis on quark models. He is author of more than 30 publications in the field of microfluidics, modeling, and theoretical physics and 10 patents. Holger Lowe, born in 1953, was appointed Director R&D at Institut fur Mikrotechnik Mainz GmbH (Imm) in 1999. Prior, he was head of the Chemistry/Microreaction Technology Department, after being Group Leader of the Electrochemsitry Group. In 1991, he joined the IMM as an employee. In 1984, he moved to the Faculty of Electrochemistry at the Technical College in Ilmenau. There he was Head of the chemical sector at the internal college. Also in 1984, he attained his Ph.D. on alkylation of phenols. From 1977 to 1984, he worked as Research Group Leader at the Filmfabrik Wolffen. He studied chemistry at the University of Leipzig. He is author of more than 280 publications and 30 patents.
A MULTI-FACETED, HIERARCHIC ANALYSIS OF CHEMICAL MICRO PROCESS TECHNOLOGY
Micro Reactor Differentiation and Process Intensification
Consequences of Chemical Micro Processing
Physical and Chemical Implications
Impact on Chemical Engineering
Impact on Process Engineering
Impact on Process Results
Impact on Society and Ecology
Impact on Economy
Application Fields and Markets of Micro Reactors
MODELLING AND SIMULATION OF MICRO REACTORS
Flow Phenomena on the Microscale
Methods of Computational Fluid Dynamics
Flow Distributions
Heat Transfer
Mass Transfer and Mixing
Reaction Kinetics and Modelling
Free Surface Flow
Flow in Porous Media
GAS-PHASE REACTIONS
Catalyst Coatings in Micro Channels
Micro Reactors for Gas-Phase Reactions
Oxidations
Hydrogenations
Dehydrogenations
Substitutions
Eliminations
Additions and Coupling Reactions
LIQUID- AND LIQUID/LIQUID-PHASE REACTIONS
Micro Reactors for Liquid-Phase and Liquid/Liquid-Phase Reactions
Aliphatic Nucleophilic and Electrophilic Substitution such as Esterification, Acylation of Amines, Thiocyanation, and much more
Aromatic Electrophilic and Nucleophilic Substitution such as Nitrations, Amino-de-halogenations, Diazo Chemistry, and much more
Metal-catalyzed Aromatic Substitution such as Suzuki and Sonogashira Couplings, and more
Free Radical Substitution such as Alkane Nitration
Addition to Carbon-Carbon and Carbon-hetero Multiple Bonds such as the Michael Addition, the Diels-Alder-Reaction, the Aldol Reaction, and much more
Oxidations and Reductions
Eliminations and Rearrangements
Inorganic Reactions such as the Belousov-Zhabotinskii-Reaction, Complex Formations, and much more
GAS/LIQUID CONTACTING
Micro Reactors for Gas/Liquid Contacting
Aromatic Electrophilic Substitution such as Direct Fluorinations
Free Radical Substitution such as Alkane Fluorinations and Chlorinations
Addition to Carbon-Carbon and Carbon-hetero Multiple Bonds such as Nitro-group Hydrogenation, Cycloalkane Hydrogenation, and more
Oxidations and Reductions such as Alcohol Oxidation, Photo Diels-Alder Reactions, and more
Inorganic Reactions such as Sulfite Oxidation
