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Chemical micro process engineering [[electronic resource] ] : fundamentals, modelling, and reactions / / Volker Hessel, Steffen Hardt, Holger Löwe

Hessel Volker

Weinheim, : Wiley-VCH, c2004

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Chemical micro process engineering [[electronic resource] ] : fundamentals, modelling, and reactions / / Volker Hessel, Steffen Hardt, Holger Löwe

Hessel Volker

Weinheim, : Wiley-VCH, c2004

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Chemical micro process engineering [[electronic resource] ] : fundamentals, modelling, and reactions / / Volker Hessel, Steffen Hardt, Holger Löwe

Hessel Volker

Weinheim, : Wiley-VCH, c2004

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In-Space Manufacturing and Resources : Earth and Planetary Exploration Applications

Hessel Volker

Newark : , : John Wiley & Sons, Incorporated, , 2022

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Micro Process Engineering: Set: A Comprehensive Handbook

Hessel Volker

[Place of publication not identified], : Wiley VCH Imprint, 2009

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Novel process windows : innovative gates to intensified and sustainable chemical processes / / Volker Hessel, Dana Kralisch, and Noprbert Kockmann

Hessel Volker

Weinheim, Germany : , : Wiley, , [2015]

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Novel process windows : innovative gates to intensified and sustainable chemical processes / / Volker Hessel, Dana Kralisch, and Noprbert Kockmann

Hessel Volker

Weinheim, Germany : , : Wiley, , [2015]

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Electronic books. (2)

Autore	Hessel Volker
Pubbl/distr/stampa	Weinheim, : Wiley-VCH, c2004
Descrizione fisica	1 online resource (714 p.)
Disciplina	660.28
Altri autori (Persone)	LöweHolger
Soggetto topico	Chemical engineering Chemistry, Technical
Soggetto genere / forma	Electronic books.
ISBN	1-280-52046-9 9786610520466 3-527-60537-1 3-527-60304-2
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Chemical Micro Process Engineering; Preface; Contents; List of Symbols and Abbreviations; 1 A Multi-faceted, Hierarchic Analysis of Chemical Micro Process Technology; 1.1 Micro-reactor Differentiation and Process Intensification; 1.1.1 Structure or Being Structured? Miniature Casings and Micro Flow; 1.1.2 Symmetry and Unit Cells; 1.1.3 Process Design Dominates Equipment Manufacture and Choice; 1.1.4 Micro-reactor and Chemical-micro-processing Differentiation; 1.1.5 Numbering-up; 1.1.5.1 Progressive Increase in Capacity by Addition of Modules 1.1.5.2 Internal vs. External Numbering-up: Scaling-out of Elements or Devices1.1.5.3 Issues to be Solved; Problems to be Encountered; 1.1.5.4 Limits of Mini- and Micro Plants for Scale-up; 1.1.5.5 First Large-capacity Numbered-up Micro-flow Devices Reported; 1.1.5.6 First Complete Test Station for Multiple-micro-reactor testing; 1.1.6 Process Intensification; 1.1.6.1 Definitions; 1.1.6.2 Matching Fluidics to Physico-chemical Requirements of a Reaction; 1.1.6.3 Relationship of and Difference between of PI and Micro-reaction Technology 1.1.6.4 Process Intensification Achieved by Use of Micro Reactors1.1.7 The Multi-scale Concept; 1.1.8 A Word of Caution on the Probability of a Deductive Analysis; 1.1.9 Other Concepts Related to or Relevant for Chemical-Micro Processing; 1.1.9.1 mTAS: Micro Total Analysis Systems; 1.1.9.2 Green Chemistry; 1.1.9.3 Sustainable Development and Technology Assessment; 1.1.9.4 Microfluidic Tectonics (μFT); 1.1.9.5 Compact Flow-through Turbulent Reactors, also Termed Microreactor (MR) Technology; 1.1.9.6 Supramolecular Aggregates, Also Termed Micro Reactors 1.1.10 Some Historical Information on Micro-reactor Evolution1.1.11 Micro-reactor Consortia/Forums; 1.1.11.1 The Laboratory on a Chip Consortium (UK); 1.1.11.2 MicroChemTec and IPmVT (D); 1.1.11.3 NeSSI (USA); 1.1.11.4 Micro Chemical Process Technology, MCPT (J); 1.1.11.5 CPAC Micro-reactor Initiative (USA); 1.2 Consequences of Chemical Micro Processing; 1.2.1 Limits of Outlining Top-down Impacts for Micro Reactors; 1.2.2 Categories of 'Micro-reactor Fundaments and Impacts'; 1.2.3 Comprehensive Reviews and Essays 1.2.4 Reviews and Essays on Physical Fundaments and the Impact on Chemical Engineering and Process Engineering1.2.5 Reviews and Essays on the Impact on Process Results, Society/Ecology and the Economy; 1.2.6 Reviews and Essays on Application Topics and Microfabrication; 1.2.7 Reviews and Essays on Institutional Work; 1.3 Physical and Chemical Fundaments; 1.3.1 Size Reduction of Process Equipment; 1.3.2 Scaling Effects Due to Size Reduction: Hydrodynamics; 1.3.3 Chemical Fundaments; 1.4 Impact on Chemical Engineering 1.4.1 Basic Requirements on Chemical Engineering from an Industrial Perspective
Record Nr.	UNINA-9910146236603321

Autore	Hessel Volker
Pubbl/distr/stampa	Weinheim, : Wiley-VCH, c2004
Descrizione fisica	1 online resource (714 p.)
Disciplina	660.28
Altri autori (Persone)	LöweHolger
Soggetto topico	Chemical engineering Chemistry, Technical
ISBN	1-280-52046-9 9786610520466 3-527-60537-1 3-527-60304-2
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Chemical Micro Process Engineering; Preface; Contents; List of Symbols and Abbreviations; 1 A Multi-faceted, Hierarchic Analysis of Chemical Micro Process Technology; 1.1 Micro-reactor Differentiation and Process Intensification; 1.1.1 Structure or Being Structured? Miniature Casings and Micro Flow; 1.1.2 Symmetry and Unit Cells; 1.1.3 Process Design Dominates Equipment Manufacture and Choice; 1.1.4 Micro-reactor and Chemical-micro-processing Differentiation; 1.1.5 Numbering-up; 1.1.5.1 Progressive Increase in Capacity by Addition of Modules 1.1.5.2 Internal vs. External Numbering-up: Scaling-out of Elements or Devices1.1.5.3 Issues to be Solved; Problems to be Encountered; 1.1.5.4 Limits of Mini- and Micro Plants for Scale-up; 1.1.5.5 First Large-capacity Numbered-up Micro-flow Devices Reported; 1.1.5.6 First Complete Test Station for Multiple-micro-reactor testing; 1.1.6 Process Intensification; 1.1.6.1 Definitions; 1.1.6.2 Matching Fluidics to Physico-chemical Requirements of a Reaction; 1.1.6.3 Relationship of and Difference between of PI and Micro-reaction Technology 1.1.6.4 Process Intensification Achieved by Use of Micro Reactors1.1.7 The Multi-scale Concept; 1.1.8 A Word of Caution on the Probability of a Deductive Analysis; 1.1.9 Other Concepts Related to or Relevant for Chemical-Micro Processing; 1.1.9.1 mTAS: Micro Total Analysis Systems; 1.1.9.2 Green Chemistry; 1.1.9.3 Sustainable Development and Technology Assessment; 1.1.9.4 Microfluidic Tectonics (μFT); 1.1.9.5 Compact Flow-through Turbulent Reactors, also Termed Microreactor (MR) Technology; 1.1.9.6 Supramolecular Aggregates, Also Termed Micro Reactors 1.1.10 Some Historical Information on Micro-reactor Evolution1.1.11 Micro-reactor Consortia/Forums; 1.1.11.1 The Laboratory on a Chip Consortium (UK); 1.1.11.2 MicroChemTec and IPmVT (D); 1.1.11.3 NeSSI (USA); 1.1.11.4 Micro Chemical Process Technology, MCPT (J); 1.1.11.5 CPAC Micro-reactor Initiative (USA); 1.2 Consequences of Chemical Micro Processing; 1.2.1 Limits of Outlining Top-down Impacts for Micro Reactors; 1.2.2 Categories of 'Micro-reactor Fundaments and Impacts'; 1.2.3 Comprehensive Reviews and Essays 1.2.4 Reviews and Essays on Physical Fundaments and the Impact on Chemical Engineering and Process Engineering1.2.5 Reviews and Essays on the Impact on Process Results, Society/Ecology and the Economy; 1.2.6 Reviews and Essays on Application Topics and Microfabrication; 1.2.7 Reviews and Essays on Institutional Work; 1.3 Physical and Chemical Fundaments; 1.3.1 Size Reduction of Process Equipment; 1.3.2 Scaling Effects Due to Size Reduction: Hydrodynamics; 1.3.3 Chemical Fundaments; 1.4 Impact on Chemical Engineering 1.4.1 Basic Requirements on Chemical Engineering from an Industrial Perspective
Record Nr.	UNINA-9910830317303321

Autore	Hessel Volker
Pubbl/distr/stampa	Weinheim, : Wiley-VCH, c2004
Descrizione fisica	1 online resource (714 p.)
Disciplina	660.28
Altri autori (Persone)	LöweHolger
Soggetto topico	Chemical engineering Chemistry, Technical
ISBN	1-280-52046-9 9786610520466 3-527-60537-1 3-527-60304-2
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Chemical Micro Process Engineering; Preface; Contents; List of Symbols and Abbreviations; 1 A Multi-faceted, Hierarchic Analysis of Chemical Micro Process Technology; 1.1 Micro-reactor Differentiation and Process Intensification; 1.1.1 Structure or Being Structured? Miniature Casings and Micro Flow; 1.1.2 Symmetry and Unit Cells; 1.1.3 Process Design Dominates Equipment Manufacture and Choice; 1.1.4 Micro-reactor and Chemical-micro-processing Differentiation; 1.1.5 Numbering-up; 1.1.5.1 Progressive Increase in Capacity by Addition of Modules 1.1.5.2 Internal vs. External Numbering-up: Scaling-out of Elements or Devices1.1.5.3 Issues to be Solved; Problems to be Encountered; 1.1.5.4 Limits of Mini- and Micro Plants for Scale-up; 1.1.5.5 First Large-capacity Numbered-up Micro-flow Devices Reported; 1.1.5.6 First Complete Test Station for Multiple-micro-reactor testing; 1.1.6 Process Intensification; 1.1.6.1 Definitions; 1.1.6.2 Matching Fluidics to Physico-chemical Requirements of a Reaction; 1.1.6.3 Relationship of and Difference between of PI and Micro-reaction Technology 1.1.6.4 Process Intensification Achieved by Use of Micro Reactors1.1.7 The Multi-scale Concept; 1.1.8 A Word of Caution on the Probability of a Deductive Analysis; 1.1.9 Other Concepts Related to or Relevant for Chemical-Micro Processing; 1.1.9.1 mTAS: Micro Total Analysis Systems; 1.1.9.2 Green Chemistry; 1.1.9.3 Sustainable Development and Technology Assessment; 1.1.9.4 Microfluidic Tectonics (μFT); 1.1.9.5 Compact Flow-through Turbulent Reactors, also Termed Microreactor (MR) Technology; 1.1.9.6 Supramolecular Aggregates, Also Termed Micro Reactors 1.1.10 Some Historical Information on Micro-reactor Evolution1.1.11 Micro-reactor Consortia/Forums; 1.1.11.1 The Laboratory on a Chip Consortium (UK); 1.1.11.2 MicroChemTec and IPmVT (D); 1.1.11.3 NeSSI (USA); 1.1.11.4 Micro Chemical Process Technology, MCPT (J); 1.1.11.5 CPAC Micro-reactor Initiative (USA); 1.2 Consequences of Chemical Micro Processing; 1.2.1 Limits of Outlining Top-down Impacts for Micro Reactors; 1.2.2 Categories of 'Micro-reactor Fundaments and Impacts'; 1.2.3 Comprehensive Reviews and Essays 1.2.4 Reviews and Essays on Physical Fundaments and the Impact on Chemical Engineering and Process Engineering1.2.5 Reviews and Essays on the Impact on Process Results, Society/Ecology and the Economy; 1.2.6 Reviews and Essays on Application Topics and Microfabrication; 1.2.7 Reviews and Essays on Institutional Work; 1.3 Physical and Chemical Fundaments; 1.3.1 Size Reduction of Process Equipment; 1.3.2 Scaling Effects Due to Size Reduction: Hydrodynamics; 1.3.3 Chemical Fundaments; 1.4 Impact on Chemical Engineering 1.4.1 Basic Requirements on Chemical Engineering from an Industrial Perspective
Record Nr.	UNINA-9910840533303321

Autore	Hessel Volker
Pubbl/distr/stampa	[Place of publication not identified], : Wiley VCH Imprint, 2009
Descrizione fisica	1 online resource (481 pages)
Disciplina	610.28
Soggetto topico	Microtechnology Production engineering
ISBN	3-527-63144-5
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Fluid Dynamics in Microchannels. Multiphase Flow / Axel Günther, Michiel T Kreutzer -- Microfluidic Networks / Norbert Kockmann -- Boiling and Two-Phase Flow in Microchannels / John R Thome, Gherhardt Ribatski -- Microscale Flow Visualization / Marko Hoffmann, Michael Schlüter, Norbert Räbiger -- Modeling of Microfluidic Devices / David F Fletcher, Brian S Haynes, Joëlle Aubin, Catherine Xuereb -- Mixing in Microsystems. Characterization of Mixing and Segregation in Homogeneous Flow Systems / Laurent Falk, Jean-Marc Commenge -- Passive and Active Micromixers / Zhigang Wu, Nam-Trung Nguyen -- Mixing and Contacting of Heterogeneous Systems / Asterios Gavriilidis, Panagiota Angeli -- Heat/Mass Transfer. Heat Transfer in Homogeneous Systems / Franz Trachsel, Philipp Rudolf von Rohr -- Transport Phenomena in Microscale Reacting Flows / Niket S Kaisare, Georgios D Stefanidis, Dionisios G Vlachos -- Fluid-Fluid and Fluid-Solid Mass Transfer / Michiel T Kreutzer, Axel Günther -- Microstructured Devices for Purification and Separation Processes. Extraction / Nobuaki Aoki, Kazuhiro Mae -- Capillary Electrochromatography / Hans-Joerg Bart -- Microstructured Reactors. Homogeneous Reactions / Volker Hessel, Patrick Löb -- Heterogeneous Multiphase Reactions / Madhvanand N Kashid, David W Agar, Albert Renken, Lioubov Kiwi-Minsker -- Photoreactors / Roger Gorges, Andreas Kirsch -- Microstructured Reactors for Electrochemical Synthesis / Sabine Rode, Francois Lapicque -- Microreactor Design, Fabrication and Assembly. Silicon and Glass Microreactors / Roald M Tiggelaar, J G E (han) Gardeniers -- Metallic, Steel, Ceramic and Plastic Microreactors / Jürgen J Brandner -- Bulk and Fine Chemistry. Liquid- and Liquid-Liquid-Phase Reactions : Aliphatic Substitution Reactions / Paul Watts, Charlotte Wiles -- Liquid- and Liquid-Liquid-Phase Reactions : Aromatic Substitution Reactions / Stefan Lobbecke -- Liquid- and Liquid-Liquid-Phase Reactions : Addition and Elimination / Jun-Ichi Yoshida, Aiichiro Nagaki -- Liquid- and Liquid-Liquid-Phase Reactions : Coupling Reactions / Ilhyong Ryu, Takahide Fukuyama -- Liquid- and Liquid-Liquid-Phase Reactions : Oxidations and Reduction / Jun-Ichi Yoshida, Aiichiro Nagaki -- Gas-Liquid-Phase Reactions: Substitution / Jun-Ichi Yoshida, Aiichiro Nagaki -- Gas-Liquid-Phase Reactions: Addition / Claude de Bellefon -- Gas-Liquid-Phase Reactions: Reduction / Harshal Surangalikar, Shaun McGovern, Ronald S Besser -- Gas-Liquid-Phase Reactions: Miscellaneous Reactions / Ilhyong Ryu, Md Taifur Rahman -- Polymerization. Free Radical Polymerization / Christophe Serra -- Living Radical Polymerization / Thomas E Enright -- Cationic Polymerization / Jun-Ichi Yoshida, Aiichiro Nagaki -- Polycondensation / Takeshi Honda, Hideaki Maeda -- Functional Materials. Organic Particles and Pigments / Hieng Kim -- Inorganic Particles / Michael Kohler -- Polymer Particles / Christophe Serra -- Microencapsulates, Proteins and Lipids/Vesicles / John van der Schaaf -- Oil-in-Water and Water-in-Oil Emulsions / Heike P Schuchmann, Karsten Köhler, Freddy Aguilar, Andreas Hensel -- Double, Triple and Complex Multilayered Emulsions / Takasi Nisisako -- Microreactor Applications in the Consumer Goods Industry / Patrick Lob, Volker Hessel, Alberto Simoncelli -- Fuel Processing. Application and Operation of Microreactors for Fuel Conversion / Peter Pfeifer, Katja Haas-Santo, Oliver Gorke -- Steam Reforming / Gunther Kolb -- Partial Oxidation / Peter Pfeifer -- CO Clean-Up: Water Gas Shift and Methanation Reactions / Andre C van Veen, Yves Schuurman, Claude Mirodatos -- CO Clean-Up: Preferential Oxidation / Xun Ouyang, Ronald S Besser -- Microreactor Systems Design and Scale-Up. Structured Multi-Scale Process Systems Design and Engineering : The Role of Microreactor Technology in Chemical Process Design / Michael Matlosz, Laurent Falk, Jean-Marc Commenge -- Reaction and Process System Analysis, Miniaturization and Intensification Strategies / Jean-Marc Commenge, Laurent Falk -- Principles and Guidelines for Selection of Microstructured Devices for Mixing and Reaction / Gunter Tekautz, Barbara Zechner, Lukas E Wiesegger, Dirk Kirschneck -- Catalyst Development, Screening and Optimization / Andre C van Veen, Yirk Schuurman, Claude Mirodatos -- Sensing, Analysis, and Control. Microtechnology and Process Analytics / Melvin V Koch, Ray W Chrisman -- Optical In-Line Spectroscopy in Microchemical Processes / Wolfgang Ferstl -- On-Line Monitoring of Reaction Kinetics in Microreactors Using Mass Spectrometry and Micro-NMR Spectroscopy / Jacob Bart, Han Gardeniers -- Automation and Control of Microprocess Systems / Thomas Bayer, Olaf Stange -- Microreactor Plants: Case Studies. Industrial Microreactor Process Development up to Production / Volker Hessel, Patrick Lob, Holger Lowe -- Microreactor Plant for the Large-Scale Production of a Fine Chemical Intermediate: A Technical Case Study / P Poechlauer, M Vorbach, M Kotthaus, S Braune, R Reintjens, F Mascarello, G Kwant -- Development and Scale-Up of a Microreactor Pilot Plant Using the Concept of Numbering-Up / Shigenori Togashi -- Microstructures as a Tool for Production in the Tons per Hour Scale / Dirk Kirschneck, Gunter Tekautz -- Economics and Eco-Efficiency Analyses. The Economic Potential of Microreaction Technology / Dana Kralisch, Ulrich Krtschil, Dominique M Roberge, Volker Hessel, Dirk Schmalz -- Life Cycle Assessment of Microreaction Technology Versus Batch Technology : A Case Study / Dana Kralisch -- Exergy Analysis of a Micro Fuel Processing System for Hydrogen and Electricity Production : A Case Study / Krzysztof J Ptasinski.
Record Nr.	UNINA-9910133657303321

Autore	Hessel Volker
Pubbl/distr/stampa	Weinheim, Germany : , : Wiley, , [2015]
Descrizione fisica	1 online resource (632 p.)
Disciplina	660.6 660.63
Soggetto topico	Green chemistry Chemical processes Environmental chemistry Microreactors Chemical engineering
ISBN	3-527-65484-4 3-527-65482-8 3-527-65485-2
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	Cover; Related Titles; Title Page; Copyright; Dedication Page; Motivation - Who Should Read the Book!?; Acknowledgments; Abbreviations; Nomenclature; Chapter 1: From Green Chemistry to Green Engineering - Fostered by Novel Process Windows Explored in Micro-Process Engineering/Flow Chemistry; 1.1 Prelude - Potential for Green Chemistry and Engineering; 1.2 Green Chemistry; 1.3 Green Engineering; 1.4 Micro- and Milli-Process Technologies; 1.5 Flow Chemistry; 1.6 Two Missing Links - Cross-Related; References; Chapter 2: Novel Process Windows 2.1 Transport Intensification - The Potential of Reaction Engineering 2.2 Chemical Reactivity in Match or Mismatch to Intensified Engineering; 2.3 Chemical Intensification through Harsh Conditions - Novel Process Windows; 2.4 Flash Chemistry; 2.5 Process-Design Intensification; References; Chapter 3: Chemical Intensification - Fundamentals; 3.1 Length Scale; 3.2 Time Scale; 3.3 Length and Time Scale of Chemical Reactions; 3.4 Temperature Intensification; 3.5 Pressure Intensification; References; Chapter 4: Making Use of the "Forbidden" - Ex-Regime/High Safety Processing 4.1 Hazardous Reactants and Intermediates 4.2 Ex-Regime and Thermal Runaway Processing; References; Chapter 5: Exploring New Paths - New Chemical Transformations; 5.1 Direct Syntheses via One Step; 5.2 Direct Syntheses via Multicomponent Reactions; 5.3 Multistep One-Flow Syntheses; 5.4 Multistep Syntheses in One Microreactor/Chip; 5.5 Multistep Syntheses in Coupled Microreactors/Chips; References; Chapter 6: Activate - High-T Processing; 6.1 Tailored High-T Microreactor Design and Fabrication; 6.2 Cryogenic to Ambient - Allowing Fast Reactions to be Fast 6.3 From Reflux to Superheated - Speeding-Up Reactions 6.4 Solvent-Scope Widening by Virtue of Pressurizing Existing High-T Reactions; 6.5 New Temperature Field for Product and Material Control; 6.6 Energy Activation Other than Temperature - Photo, Electrochemical, Plasma; References; Chapter 7: Press - High-p Processing; 7.1 Tailored High-p Microreactor Design and Fabrication; 7.2 High Pressure to Intensify Interfacial Transport in Gas-Liquid Reactions; 7.3 Pressure as Direct Means - Activation Volume Effects and More 7.4 Pressure for Advanced Fluidic Studies - to be Used for Shaping Materials and More References; Chapter 8: Collide and Slide - High-c and Tailored-Solvent Processing; 8.1 Batch Process-Based Inspirations for High-c Flow Processes; 8.2 Solvent-Free or Solvent-Less Operation - "Highest-c"; 8.3 Supercritical Fluids to Combine the Former Separated - Mass Transfer Boost; References; Chapter 9: Doing More by Combining - Process Integration; 9.1 Integration of Reaction and Cooling/Heating, Separation, or Other; 9.2 Integration of Process Control and Sensing 9.3 Thermal Integration on a Process Level
Record Nr.	UNINA-9910132300503321