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This 3-volume encyclopedia covers all aspects of synthetic membranes at the fundamental as well as practical levels. Furthermore, this reference offers the opportunity to critically assess the status of advancements in the materials science of membranes and their engineering applications. This second volume focuses on the materials, morphologies, and properties of commercial membranes; their methods of manufacturing and testing; and the design of membrane modules.
A landmark work covering the major aspects of the science, technology and application of membrane operations and related fields, from basic phenomena to the most advanced applications and future perspectives. Over 1500 concise entries in an A-Z format cover a vibrant field with a multitude of applications in diverse disciplines such as biotechnology, medicine, agro-food and petrochemical industries, environmental protection, as well as drinking water supply. Coverage includes membrane reactors and catalytic design (catalytic membrane reactors). Practically all unit operations of process engineering can be redesigned as membrane unit operations (e. g. membrane distillation, membrane crystallization, membrane stripping, membrane scrubbing). Entries are provided by an international team of experts from academia, research institutions as well as from industry.
Foreword by Professor Menachem Elimelech, Yale University, USA This 3-volume thematic work provides critical assessment of the status and advancements in materials and fabrication of membranes, membrane based processes, and applications critical to industrial applications and research from fundamental and practical levels. The Encyclopedia of Membrane Science and Technology binds together the history of synthetic membranes, as well as state-of-the-art findings of younger and experienced membrane researchers from over 25 countries. This comprehensive publication considers the fast growing interest in synthetic membranes and their many applications, including drinking water purification, gas separations, food technology, biotechnology, drug delivery devices, rechargeable batteries and fuel cells. An essential reference in this fast growing area of synthetic membranes and their many applications Provides useful descriptions of membrane materials and processes, with a focus on environmentally friendly approaches Global contributions, including many from the younger generation of membrane researchers, who give the work a valuable and fresh outlook The Encyclopedia of Membrane Science and Technology provides valuable insight on the latest developments, such as Membrane separation and transport; Materials, characterization, and module design; Fundamentals of membrane separation processes; Applications of membrane technology in various industries; A collection of reference information on all aspects of science and technology The Encyclopedia of Membrane Science and Technology covers the following topics: Solution-Diffusion Processes Ultra-, Micro-, and Nanofiltration Processes Gas Transport Membranes Fouling in Membrane Bioreactors Micro-Engineered Membranes Porosity Surface Modifications of Membranes Inorganic Membranes Carbon Membranes Membrane Characterization Dynamic Crossflow Filtration Multiple Osmosis Processes Membrane Electrolysis Natural Gas Purification Catalytic Membrane Reactors Seawater Desalination Applications of Membranes in Biotechnology Applications to Wastewater Treatment and Reuse Polymer Membranes for Fuel Cells Food Industry Applications Polymeric Membranes for Energy Applications Applications in Nuclear Waste Processing Enantioselective Membranes 3 Volumes wileyonlinelibrary.com/ref/emst Online Version: Visit wileyonlinelibrary.com to see the topics currently available, browse article abstracts and read sample articles. To set up a FREE trial, please contact your local agent, your Wiley Account Manager, or email [email protected]
A landmark work covering the major aspects of the science, technology and application of membrane operations and related fields, from basic phenomena to the most advanced applications and future perspectives. Over 1500 concise entries in an A-Z format cover a vibrant field with a multitude of applications in diverse disciplines such as biotechnology, medicine, agro-food and petrochemical industries, environmental protection, as well as drinking water supply. Coverage includes membrane reactors and catalytic design (catalytic membrane reactors). Practically all unit operations of process engineering can be redesigned as membrane unit operations (e. g. membrane distillation, membrane crystallization, membrane stripping, membrane scrubbing). Entries are provided by an international team of experts from academia, research institutions as well as from industry.
A landmark work covering the major aspects of the science, technology and application of membrane operations and related fields, from basic phenomena to the most advanced applications and future perspectives. Over 1500 concise entries in an A-Z format cover a vibrant field with a multitude of applications in diverse disciplines such as biotechnology, medicine, agro-food and petrochemical industries, environmental protection, as well as drinking water supply. Coverage includes membrane reactors and catalytic design (catalytic membrane reactors). Practically all unit operations of process engineering can be redesigned as membrane unit operations (e. g. membrane distillation, membrane crystallization, membrane stripping, membrane scrubbing). Entries are provided by an international team of experts from academia, research institutions as well as from industry.
This ready reference on Membrane Technologies for Water Treatment, is an invaluable source detailing sustainable, emerging processes, to provide clean, energy saving and cost effective alternatives to conventional processes. The editors are internationally renowned leaders in the field, who have put together a first-class team of authors from academia and industry to present a highly approach to the subject. The book is an instrumental tool for Process Engineers, Chemical Engineers, Process Control Technicians, Water Chemists, Environmental Chemists, Materials Scientists and Patent Lawyers.
Offers a comprehensive overview of membrane science and technology from a single source Written by a renowned author with more than 40 years’ experience in membrane science and technology, and polymer science Covers all major current applications of membrane technology in two definitive volumes Includes academic analyses, applications and practical problems for each existing membrane technology Includes novel applications such as membrane reactors, hybrid systems and optical resolution as well as membrane fuel cells
Offers a comprehensive overview of membrane science and technology from a single source Written by a renowned author with more than 40 years’ experience in membrane science and technology, and polymer science Covers all major current applications of membrane technology in two definitive volumes Includes academic analyses, applications and practical problems for each existing membrane technology Includes novel applications such as membrane reactors, hybrid systems and optical resolution as well as membrane fuel cells
III . 2 Preparation of synthetic membranes 72 III . 3 Phase inversion membranes 75 III. 3. 1 Preparation by evaporation 76 III . 3. 2 Precipitation. from the vapour phase 76 III . 3. 3 Precipitation by controlled evaporation 76 Thermal precipitation 76 III . 3. 4 III . 3. 5 Immersion precipitation 77 Preparation techniques for immersion precipitation 77 III . 4 Flat membranes 77 III . 4. 1 78 III . 4. 2 Tubular membranes 81 III . 5 Preparation techniques for composite membranes 82 III. 5. 1 Interfacial polymerisation Dip-coating 83 III . 5. 2 III . 5. 3 Plasma polymerisation 86 III . 5. 4 Modification of homogeneous dense membranes 87 III . 6 Phase separation in polymer systems 89 III . 6. 1 Introduction 89 III . 6. 1. 1 Thermodynamics 89 III . 6. 2 Demixing processes 99 III . 6. 2. 1 Binary mixtures 99 III . 6. 2. 2 Ternary systems 102 III . 6. 3 Crystallisation 104 III . 6. 4 Gelation 106 III . 6. 5 Vitrification 108 III . 6. 6 Thermal precipitation 109 III . 6. 7 Immersion precipitation 110 III . 6. 8 Diffusional aspects 114 III . 6. 9 Mechanism of membrane formation 117 III. 7 Influence of various parameters on membrane morphology 123 III. 7. 1 Choice of solvent-nonsolvent system 123 III . 7. 2 Choice of the polymer 129 III . 7. 3 Polymer concentration 130 III . 7. 4 Composition of the coagulation bath 132 III . 7. 5 Composition of the casting solution 133 III . 7.