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Den wichtigsten Aspekten der Mikroprozesstechnik widmet sich dieses dreibändige Handbuch. Gegenstand des ersten Bandes sind Grundlagen (Fluiddynamik, Mischung, Wärme- und Stofftransport, Reinigungs- und Stofftrennverfahren, mikrostrukturierte Reaktoren). Band 2 befasst sich mit Design, Konstruktion und Bau von Mikroreaktoren sowie deren Anwendungen in der Grundstoff- und Feinchemikalienindustrie, während Band 3 vor allem prozesstechnische Themen wie Systemdesign, Scale-up, Steuerungs- und Regelungstechnik sowie ökonomisch/ökologische Analysen behandelt.
List of contents
VOLUME I: Fundamentals, Operations and CatalystsFLUID DYNAMICS IN MICROCHANNELSMultiphase FlowMicrofluidic NetworksBoiling and Two-Phase Flow in MicrochannelsMicroscale Flow VisualizationModeling of Microfluidic DevicesMIXING IN MICROSYSTEMSCharacterization of Mixing and Segregation in Homogeneous Flow SystemsPassive and Active MicromixersMixing and Contacting of Heterogeneous SystemsHEAT/MASS TRANSFERHeat Transfer in Homogeneous SystemsTransport Phenomena in Microscale Reacting FlowsFluid-Fluid and Fluid-Solid Mass TransferMICROSTRUCTURED DEVICES FOR PURIFICATION AND SEPARATION PROCESSESExtractionCapillary ElectrochromatographyMICROSTRUCTURED REACTORSHomogeneous ReactionsHeterogeneous Multiphase ReactionsPhotoreactorsMicrostructured Reactors for Electrochemical SynthesisVOLUME II: Devices, Reactions and ApplicationsMICROREACTOR DESIGN, FABRICATION AND ASSEMBLYSilicon and Glass MicroreactorsMetallic, Steel, Ceramic and Plastic MicroreactorsBULK AND FINE CHEMISTRYLiquid- and Liquid-Liquid-Phase Reactions - Aliphatic Substitution ReactionsLiquid- and Liquid-Liquid-Phase Reactions - Aromatic Substitution ReactionsLiquid- and Liquid-Liquid-Phase Reactions - Addition and EliminationLiquid- and Liquid-Liquid-Phase Reactions - Coupling ReactionsLiquid- and Liquid-Liquid-Phase Reactions - Oxidations and ReductionGas-Liquid-Phase Reactions: SubstitutionGas-Liquid-Phase Reactions: AdditionGas-Liquid-Phase Reactions: ReductionGas-Liquid-Phase Reactions: Miscellaneous ReactionsPOLYMERIZATIONFree Radical PolymerizationLiving Radical PolymerizationCationic PolymerizationPolycondensationFUNCTIONAL MATERIALSOrganic Particles and PigmentsInorganic ParticlesPolymer ParticlesMicroencapsulates, Proteins and Lipids/VesiclesOil-in-Water and Water-in-Oil EmulsionsDouble, Triple and Complex Multilayered EmulsionsMicroreactor Applications in the Consumer Goods IndustryFUEL PROCESSINGApplication and Operation of Microreactors for Fuel ConversionSteam ReformingPartial OxidationCO Clean-Up: Water Gas Shift and Methanation ReactionsCO Clean-Up: Preferential OxidationVOLUME III: System, Process and Plant EngineeringMICROREACTOR SYSTEMS DESIGN AND SCALE-UPStructured Multi-Scale Process Systems Design and Engineering - The Role of Microreactor Technology in Chemical Process DesignReaction and Process System Analysis, Miniaturization and Intensification StrategiesPrinciples and Guidelines for Selection of Microstructured Devices for Mixing and ReactionCatalyst Development, Screening and OptimizationSENSING, ANALYSIS, AND CONTROLMicrotechnology and Process AnalyticsOptical In-Line Spectroscopy in Microchemical ProcessesOn-Line Monitoring of Reaction Kinetics in Microreactors Using Mass Spectrometry and Micro-NMR SpectroscopyAutomation and Control of Microprocess SystemsMICROREACTOR PLANTS: CASE STUDIESIndustrial Microreactor Process Development up to ProductionMicroreactor Plant for the Large-Scale Production of a Fine Chemical Intermediate: A Technical Case StudyDevelopment and Scale-Up of a Microreactor Pilot Plant Using the Concept of Numbering-UpMicrostructures as a Tool for Production in the Tons per Hour ScaleECONOMICS AND ECO-EFFICIENCY ANALYSESThe Economic Potential of Microreaction TechnologyLife Cycle Assessment of Microreaction Technology Versus Batch Technology - A Case StudyExergy Analysis of a Micro Fuel Processing System for Hydrogen ald Electricity Production - A Case Study
About the author
Volker Hessel, born 1964, was appointed Vice Director R&D and Head of the Chemical Process Technology Department at the Institut für Mikrotechnik Mainz GmbH (IMM) in 2002. His department focuses on mixing, fine chemistry, and energy generation by fuel processing using microstructured reactors. He obtained his Ph.D. from the University of Mainz on organic chemistry in 1993, investigating structure-property relations of supramolecular structures. After having been appointed Group Leader for Microreaction Technology at the IMM in 1996, he became Head of the newly founded Department of Microreaction Technology in 1999. He is author of more than 90 peer-reviewed publications in the field of organic chemistry and chemical micro process engineering, 200 papers in total, 3 books and 15 patents.
Albert Renken obtained his academic degrees at the Technical University of Hanover, Germany. Professor Renken has been affiliated with ETH Lausanne, Switzerland since 1977. He is author of over 350 scientific publications in journals and books and of numerous patents. From 1992 to 2000, Albert Renken was science councillor of the Swiss National Science Foundation (SNF), and from 1996 to 2000 he served as chairman of the European Federation of Chemical Reaction Engineering Working Party.
Summary
Den wichtigsten Aspekten der Mikroprozesstechnik widmet sich dieses dreibändige Handbuch. Gegenstand des ersten Bandes sind Grundlagen (Fluiddynamik, Mischung, Wärme- und Stofftransport, Reinigungs- und Stofftrennverfahren, mikrostrukturierte Reaktoren). Band 2 befasst sich mit Design, Konstruktion und Bau von Mikroreaktoren sowie deren Anwendungen in der Grundstoff- und Feinchemikalienindustrie, während Band 3 vor allem prozesstechnische Themen wie Systemdesign, Scale-up, Steuerungs- und Regelungstechnik sowie ökonomisch/ökologische Analysen behandelt.
