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Membrane Technology and Applications Third Edition

RW Baker (Autor)

Software / Digital Media
592 Seiten
2012
John Wiley & Sons Inc (Hersteller)
978-1-118-35968-6 (ISBN)
121,32 inkl. MwSt
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This completely revised edition features new material covering membrane research topics including biofuels and greenhouse gases, fuel cells, and medical applications such as blood purification, artificial organs, and tissue engineering.
the best handbook on membrane technology, which is currently on the market...Membrane News (on the previous edition) Building on the success of the previous edition, Membrane Technology and Applications Third Edition provides a comprehensive overview of separation membranes, their manufacture and their applications. Beginning with a series of general chapters on membrane preparation, transport theory and concentration polarization, the book then surveys several major areas of membrane application in separate chapters. Written in a readily accessible style, each chapter covers its membrane subject thoroughly, from historical and theoretical backgrounds through to current and potential applications. Topics include reverse osmosis, ultrafiltration, pervaporation, microfiltration, gas separation and coupled and facilitated transport; chapters on electrodialysis and medical applications round out the coverage.
NEW TO THE THIRD EDITION * New sections on the use of membranes in the chlor-alkali industry, membrane distillation, pressure retarded osmosis and constant flux-variable pressure ultrafiltration * Zeolite and ceramic membranes, submerged membrane modules, and fuel cell membranes * Substantially enhanced chapters on ultrafiltration, pervaporation and membrane contactors * Updates to every chapter to reflect the developments in the field

Richard W. Baker, Membrane Technology and Research, Inc.(MTR), Newark, California, USA

Preface xi Acknowledgments xiii 1. Overview of Membrane Science and Technology 1 1.1 Introduction 1 1.2 Historical Development of Membranes 1 1.3 Types of Membranes 4 1.3.1 Isotropic Membranes 4 1.3.2 Anisotropic Membranes 6 1.3.3 Ceramic, Metal, and Liquid Membranes 6 1.4 Membrane Processes 6 References 13 2. Membrane Transport Theory 15 2.1 Introduction 15 2.2 The Solution-Diffusion Model 18 2.2.1 Molecular Dynamics Simulations 18 2.2.2 Concentration and Pressure Gradients in Membranes 22 2.2.3 Application of the Solution-Diffusion Model to Specific Processes 27 2.2.4 A Unified View 50 2.3 Structure-Permeability Relationships in Solution-Diffusion Membranes 53 2.3.1 Diffusion Coefficients 55 2.3.2 Sorption Coefficients in Polymers 64 2.4 Pore-Flow Membranes 72 2.4.1 Permeation in Ultrafiltration and Microfiltration Membranes 73 2.4.2 Knudsen Diffusion and Surface Diffusion in Microporous Membranes 79 2.4.3 Polymers with Intrinsic Microporosity (PIMs) 86 2.4.4 The Transition Region 89 2.5 Conclusions and Future Directions 90 References 92 3. Membranes and Modules 97 3.1 Introduction 97 3.2 Isotropic Membranes 98 3.2.1 Isotropic Nonporous Membranes 98 3.2.2 Isotropic Microporous Membranes 100 3.3 Anisotropic Membranes 102 3.3.1 Phase separation membranes 104 3.3.2 Interfacial Polymerization Membranes 121 3.3.3 Solution-Coated Composite Membranes 125 3.3.4 Other Anisotropic Membranes 128 3.3.5 Repairing Membrane Defects 132 3.4 Metal, Ceramic, Zeolite, Carbon, and Glass Membranes 134 3.4.1 Metal Membranes 134 3.4.2 Ceramic Membranes 135 3.4.3 Zeolite Membranes 139 3.4.4 Mixed-Matrix Membranes 141 3.4.5 Carbon Membranes 145 3.4.6 Microporous Glass Membranes 148 3.5 Liquid Membranes 148 3.6 Hollow Fiber Membranes 148 3.7 Membrane Modules 154 3.7.1 Plate-and-Frame Modules 155 3.7.2 Tubular Modules 157 3.7.3 Spiral-Wound Modules 158 3.7.4 Hollow Fiber Modules 162 3.7.5 Other Module Types 165 3.8 Module Selection 167 3.9 Conclusions and Future Directions 169 References 170 4. Concentration Polarization 179 4.1 Introduction 179 4.2 Boundary Layer Film Model 182 4.3 Determination of the Peclet Number 191 4.4 Concentration Polarization in Liquid Separation Processes 193 4.5 Concentration Polarization in Gas Separation Processes 196 4.6 Cross-Flow, Co-Flow, and Counter-Flow 197 4.7 Conclusions and Future Directions 204 References 205 5. Reverse Osmosis 207 5.1 Introduction and History 207 5.2 Theoretical Background 208 5.3 Membranes and Materials 213 5.3.1 Cellulosic Membranes 213 5.3.2 Noncellulosic Polymer Membranes 216 5.3.3 Interfacial Composite Membranes 217 5.3.4 Other Membrane Materials 219 5.4 Reverse Osmosis Membrane Categories 220 5.4.1 Seawater and Brackish Water Desalination Membranes 221 5.4.2 Nanofiltration Membranes 222 5.4.3 Hyperfiltration Organic Solvent Separating Membranes 224 5.5 Membrane Selectivity 227 5.6 Membrane Modules 228 5.7 Membrane Fouling Control 231 5.7.1 Scale 231 5.7.2 Silt 233 5.7.3 Biofouling 233 5.7.4 Organic Fouling 235 5.7.5 Membrane Cleaning 236 5.8 Applications 237 5.8.1 Brackish Water Desalination 238 5.8.2 Seawater Desalination 240 5.8.3 Ultrapure Water 241 5.8.4 Wastewater Treatment 242 5.8.5 Nanofiltration 244 5.8.6 Organic Solvent Separation 245 5.9 Conclusions and Future Directions 246 References 247 6. Ultrafiltration 253 6.1 Introduction and History 253 6.2 Characterization of Ultrafiltration Membranes 254 6.3 Membrane Fouling 257 6.3.1 Constant Pressure/Constant Flux Operation 257 6.3.2 Concentration Polarization 261 6.3.3 Fouling Control 271 6.4 Membranes 274 6.5 Constant Pressure Modules, System Design, and Applications 274 6.5.1 Cross-Flow Ultrafiltration Modules 275 6.5.2 Constant Pressure (Cross-Flow) System Design 278 6.5.3 Applications of Cross-Flow Membrane Modules 282 6.6 Constant Flux Modules, System Design, and Applications 292 6.6.1 Constant Flux/Variable Pressure Modules 292 6.6.2 Submerged Membrane Modules and System Design 293 6.6.3 Submerged Membrane Applications 296 6.7 Conclusions and Future Directions 299 References 300 7. Microfiltration 303 7.1 Introduction and History 303 7.2 Background 305 7.2.1 Types of Membrane 305 7.2.2 Membrane Characterization 306 7.2.3 Microfiltration Membranes and Modules 313 7.2.4 Process Design 316 7.3 Applications 320 7.3.1 Sterile Filtration of Pharmaceuticals 322 7.3.2 Sterilization of Wine and Beer 322 7.3.3 Microfiltration in the Electronics Industry 323 7.4 Conclusions and Future Directions 323 References 324 8. Gas Separation 325 8.1 Introduction and History 325 8.2 Theoretical Background 326 8.2.1 Polymer Membranes 328 8.2.2 Metal Membranes 337 8.2.3 Ceramic and Zeolite Membranes 337 8.2.4 Thermally Rearranged/Microporous Carbon Membranes 338 8.2.5 Mixed-Matrix Membranes 338 8.3 Membrane Modules 338 8.4 Process Design 339 8.4.1 Pressure Ratio 340 8.4.2 Stage-Cut 343 8.4.3 Multistep and Multistage System Designs 345 8.4.4 Recycle Designs 347 8.5 Applications 349 8.5.1 Hydrogen Separations 350 8.5.2 Oxygen/Nitrogen Separation 352 8.5.3 Natural Gas Separations 359 8.5.4 Carbon Dioxide Separation 361 8.5.5 Vapor/Gas Separations 368 8.5.6 Dehydration of Air 369 8.5.7 Carbon Dioxide/Hydrogen and Carbon Dioxide/Nitrogen Separations 370 8.5.8 Vapor/Vapor Separations 372 8.6 Conclusions and Future Directions 373 References 375 9. Pervaporation 379 9.1 Introduction and History 379 9.2 Theoretical Background 381 9.3 Membrane Materials and Modules 389 9.3.1 Membrane Materials 389 9.3.2 Dehydration Membranes 392 9.3.3 Organic/Water Separation Membranes 393 9.3.4 Organic/Organic Separation Membranes 394 9.3.5 Membrane Modules 395 9.4 System Design 398 9.5 Applications 400 9.5.1 Solvent Dehydration 401 9.5.2 Separation of Dissolved Organics from Water 406 9.5.3 Separation of Organic Mixtures 409 9.6 Conclusions and Future Directions 412 References 412 10. Ion Exchange Membrane Processes Electrodialysis 417 10.1 Introduction/History 417 10.2 Theoretical Background 421 10.2.1 Transport through Ion Exchange Membranes 421 10.3 Chemistry of Ion Exchange Membranes 423 10.3.1 Homogeneous Membranes 425 10.3.2 Heterogeneous Membranes 426 10.4 Electrodialysis 428 10.4.1 Concentration Polarization and Limiting Current Density 428 10.4.2 Current Efficiency and Power Consumption 433 10.4.3 System Design 435 10.5 Electrodialysis Applications 438 10.5.1 Brackish Water Desalination 438 10.5.2 Salt Recovery from Seawater 438 10.5.3 Other Electrodialysis Separation Applications 440 10.5.4 Continuous Electrodeionization and Ultrapure Water 442 10.5.5 Bipolar Membranes 443 10.6 Fuel Cells 444 10.7 Membranes in Chlor-Alkali Processes 448 10.8 Conclusions and Future Directions 449 References 449 11. Carrier Facilitated Transport 453 11.1 Introduction/History 453 11.2 Coupled Transport 459 11.2.1 Background 459 11.2.2 Characteristics of Coupled Transport Membranes 463 11.2.3 Coupled Transport Membranes 468 11.2.4 Applications 472 11.3 Facilitated Transport 473 11.3.1 Background 473 11.3.2 Process Designs 476 11.3.3 Applications 481 11.4 Conclusions and Future Directions 486 References 487 12. Medical Applications of Membranes 493 12.1 Introduction 493 12.2 Hemodialysis 493 12.3 Blood Oxygenators 498 12.4 Plasma Fractionation 500 12.5 Controlled Drug Delivery 501 12.5.1 Membrane Diffusion-Controlled Systems 502 12.5.2 Biodegradable Systems 510 12.5.3 Osmotic Systems 512 References 518 13. Other Membrane Processes 521 13.1 Introduction 521 13.2 Dialysis 521 13.3 Donnan Dialysis (Diffusion Dialysis) 522 13.4 Charge Mosaic Membranes and Piezodialysis 526 13.5 Membrane Contactors and Membrane Distillation 529 13.5.1 Applications of Membrane Contactors 532 13.6 Membrane Reactors 538 13.6.1 Applications of Membrane Reactors 541 13.7 Ion-Conducting Membrane Reactors 544 13.8 Pressure-Retarded Osmosis (PRO) and Reverse Electrodialysis (RED) 547 13.9 Chiral Drug Separation 551 13.10 Conclusions and Future Directions 552 References 553 Appendix 559 Index 571

Erscheint lt. Verlag 19.7.2012
Verlagsort New York
Sprache englisch
Maße 150 x 250 mm
Gewicht 666 g
Themenwelt Naturwissenschaften Chemie Technische Chemie
Technik Maschinenbau
ISBN-10 1-118-35968-2 / 1118359682
ISBN-13 978-1-118-35968-6 / 9781118359686
Zustand Neuware
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