Desalination: water from water
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2019
Beverly, MA Scrivener Publishing 2019 |
| Ausgabe: | 2nd edition |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Enthält Literaturangaben |
| Beschreibung: | xix, 745 Seiten Illustrationen 24 cm |
| ISBN: | 9781119407744 |
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Datensatz im Suchindex
| _version_ | 1804180677477793792 |
|---|---|
| adam_text | Contents
Preface xxi
1 Introduction to Desalination 1
fane Kucera
1 1 Introduction 1
1 2 How Much Water is There? 2
121 Global Water Availability 2
122 Water Demand 4
123 Additional Water Stress Due to Climate Change 6
1 3 Finding More Fresh Water 7
131 Relocating Water 7
132 Conservation and Reuse 9
133 Develop New Sources of Fresh Water 11
1 4 Desalination: Water from Water 15
141 Drivers for Desalination 15
142 Feed Water Sources for Desalination 16
143 Current Users of Desalinated Water 20
144 Overview of Desalination Technologies 21
145 History of Desalination Technologies 24
1451 History of Thermal Desalination 24
1452 History of Reverse Osmosis Desalination 26
1453 Developments in Desalination Since 1980 27
146 The Future of Desalination 34
1 5 Desalination: Water from Water Outline 41
Abbreviations 43
References 44
2 Thermal Desalination Processes 51
2 1 Introduction 51
2 2 Mass- and Energy Balances 52
221 Single-Stage Evaporation 52
222 Multiple-Effect Evaporation 61
223 Multi-Stage-Flash Evaporation 80
vii
viii Contents
224 Multiple-Effect Distillation with Thermal Vapour
Compression (MED-TVC) 92
225 Single-Stage Evaporation with Mechanically Driven
Vapour Compression 104
2 3 Performance of Thermal Desalination Processes 111
231 Definition of Gained Output Ratio 111
232 Single Purpose vs Dual Purpose Plants 114
233 Specific Primary Energy Consumption 126
2 4 Recent Developments in Thermal Desalination Processes 131
241 Hybrid Plants 131
2411 Multi-Stage Flash with Reverse Osmosis
(MSF-RO) 131
2412 Multi-Effect Distillation with Reverse
Osmosis (MED-RO) 132
242 Expanding the Scope of Hybrid Thermal
Desalination 132
2 5 Future Prospects 134
251 General Remarks 134
252 Optimization of Existing Process Design 134
2521 Material of Construction 134
2522 Increasing Water Velocity 135
2523 Heat Transfer Enhancement by Using
Corrugated Oval Tubes 136
2524 Increasing the Top Operation
Temperature to 85 °C 136
2525 Increasing Number of Stages 136
2526 Modifications in MED-TVC 136
References 137
3 Basic Terms and Definitions 139
3 1 Reverse Osmosis System Flow Rating 139
3 2 Recovery 140
3 3 Rejection 142
3 4 Flux 145
3 5 Concentration Polarization 147
3 6 Beta 148
3 7 Fouling 149
3 8 Scaling 152
3 9 Silt Density Index 154
3 10 Modified Fouling Index 157
3 11 Langelier Saturation Index 160
References 161
Contents ix
Nanofiltration - Theory and Application 163
Christopher Bellona
4 1 Introduction 163
4 2 Defining Nanofiltration 164
4 3 History of Nanofiltration 168
4 4 Theory 170
441 Mechanisms of Solute Removal 171
4411 Ion Rejection 171
4412 Organic Solute Rejection 173
442 Modeling NF Separations 177
4421 Donnan Steric Pore Model 177
4422 Irreversible Thermodynamic or
Phenomenological Model 178
4423 Other Modeling Approaches 179
443 Membrane Fouling 180
4 5 Application 182
451 Water and Wastewater Treatment Industry 182
4511 Water Treatment 182
4512 Wastewater Treatment and Reuse 183
4513 Desalination 187
452 Food Industry 189
4521 Dairy Industry 189
4522 Sugar and Beverage Industry 191
453 Chemical Processing Industry 191
4531 Pharmaceutical Industry 192
4532 Textile Industry 192
4 6 Conclusions 193
References 194
Forward Osmosis 209
Jeffrey McCutcheon, LinglingXia and Nhu-Ngoc Bui
5 1 The Limitations of Conventional Desalination 210
511 Osmotic Pressure 210
5 2 Forward Osmosis 212
521 History of FO 212
522 Benefits of Forward Osmosis 214
5 3 The Draw Solution 215
531 Inorganic Solutes 216
532 Nanomaterials 217
533 Organic Solutes 217
5 4 The Membrane 218
X
Contents
541 Mass Transfer Limitations in Forward Osmosis 219
542 Tailored Membranes for FO 221
5421 Flat Sheet 222
5422 Hollow Fiber 224
5 5 Process Design and Desalination Applications 226
5 6 Future Directions 232
Acknowledgements 234
References 234
6 Electrodialysis Desalination 245
Jae-Hwan Choi, Hong-Joo Lee and Seung-Hyeon Moon
6 1 Principles of ED 246
6 2 Preparation and Characterization of Ion
Exchange Membranes 249
621 Preparation of Ion Exchange Membranes 249
622 Characterization of Ion Exchange Membranes 251
623 Concentration Polarization and the Limiting
Current Density 253
6 3 ED Equipment Design and Desalination Process 261
631 ED Stack Design 261
632 ED Process Design 262
633 ED Operation and Maintenance 264
634 Design Parameters in Desalting ED 265
635 Economics of the ED Process 267
6 4 Control of Fouling in an ED Desalination Process 270
641 Fouling Mechanism 270
642 Fouling Potential 271
643 Fouling Mitigation 273
6 5 Prospects for ED Desalination 275
651 Integration with ED for the Desalination 275
652 Process Intensification of the ED
Desalination System 276
653 ED Powered by Photovoltaic Solar Energy 278
654 Perspectives of ED Desalination 280
6 6 Concluding Remarks 281
References 282
7 Continuous Electrodeionization 287
Jonathan H Wood and Joseph D Gifford
7 1 Introduction 287
7 2 Development History 289
Contents xi
7 3 Technology Overview 289
731 Mechanisms of Ion Removal 291
7 4 CEDI Module Construction 291
741 Device Configurations 291
742 Resin Configurations 293
7421 Mixed Bed Resin Filler (CEDI-MB) -
Intermembrane Spacing 293
7422 Mixed Bed Resin Filler (CEDI-MB) -
Resin Packing 294
7423 Layered Bed Resin Filler (CEDI-LB) 294
7424 Separate Bed Resin Filler (CEDI-SB) 296
743 Flow Spacers 298
7 5 Electroactive Media Used in CEDI Devices 299
751 Ion Exchange Resin Selection 299
752 Ion Exchange Membrane Selection 299
7 6 DC Current and Voltage 300
761 Faraday’s Law 300
762 Current Efficiency and E-Factor 301
763 Ohm’s Law and Module Resistance 302
764 Electrode Reactions and Material Selection 303
7 7 System Design Considerations 304
771 Required Process Control 8c Instrumentation 304
772 Optional Process Control 8c Instrumentation 305
7 8 Process Design Considerations 306
781 Feed Water Requirements 307
782 Hardness 308
783 Carbon Dioxide 309
784 Oxidants 310
785 Temperature 311
786 Water Recovery 312
787 Recycling of CEDI Reject Stream 313
788 Total Organic Carbon 313
789 Electrode Gases 314
7 9 Operation and Maintenance 316
791 Estimation of Operating Current and Voltage 316
792 Power Supply Operation 316
793 Power Consumption 317
794 Flows and Pressures 317
795 Record Keeping 319
796 Cleaning and Sanitization 319
797 Preventive Maintenance 322
Contents
xii
7 10 Applications 322
7 10 1 Pharmaceutical and Biotechnology 322
7 10 2 Steam Generation 323
7 10 3 Microelectronics/Semiconductor 323
7 10 4 System Sizing 324
7 11 Future Trends 324
Nomenclature 325
References 326
8 Membrane Distillation: Now and Future 329
Xing Yang, Anthony G Fane and Rong Wang
8 1 Introduction 329
8 2 MD Concepts and Historic Development 331
821 MD Concepts and Configurations 331
822 Historic Development 334
8 3 MD Transport Mechanisms 336
831 Mass Transfer in MD 337
8311 Mass Transfer Through the Feed
Boundary Layer (CP Effect) 337
8312 Mass Transfer Through Membrane Pores 338
832 Heat Transfer in MD 341
8321 Heat Transfer on the Feed Side (TP Effect) 342
8322 Heat Transfer Across the Membrane-
Conduction and Evaporation 342
8 4 Strategic Development for an Enhanced MD System 343
841 MD Membranes 343
842 MD Module Design 351
843 MD Process Parameters 356
8 5 Energy and Cost Evaluation in MD 358
851 Thermal Efficiency and Cost Evaluation 359
852 Current Status of MD Cost and Energy Resources 362
8 6 Innovations on MD Application Development 364
8 7 Concluding Remarks and Future Prospects 367
References 370
9 Humidification Dehumidification Desalination 387
John H Lienhard V
9 1 Introduction 387
911 Classification of HDH cycles 390
912 System-Level Performance Parameters 391
913 Improving the Energy Efficiency of HDH Systems 394
914 Components of the HDH System 395
Contents xiii
9 2 Thermal Design 396
921 Effectiveness Model (On-Design Model) 398
9211 Water Heated HDH Cycle 399
9212 Single and Multi-Stage Air Heated Cycle 406
9213 Varied Pressure Cycles and Other
Carrier Gases 407
9214 Summary of On-Design Findings 408
922 Single-Stage Fixed-Area HDH (Off-Design model) 408
9221 Optimal Performance of a
Single-Stage System 409
9222 Relationship of HCRd = 1 to Entropy
Generation Minimization 410
9223 Variation of GOR with Top Temperature 413
9224 Summary of Off-Design Findings 416
9 3 Systems with Mass Extraction and Injection 416
931 System Balancing Algorithms
(On-Design Model) 419
932 Balancing Fixed-Area Systems by
Extraction/Injection (OffDesign Analysis) 421
933 Experimental Realization of HDH with and
without Extraction/Injection 422
934 Summary of HDH Characteristics Related to
Extraction/Injection 425
9 4 Bubble Column Dehumidification 426
941 Modeling and Experimental Validation 428
942 Multistage Bubble Column Dehumidifiers 428
943 Coil-Free Bubble Columns 431
9 5 Effect of High Salinity Feed on HDH Performance 433
Acknowledgments 437
Nomenclature 437
References 439
10 Freezing-Melting Desalination Processes 433
Mohammad Shafiur Rahman and Mohamed Al-Khusaibi
10 1 Introduction 447
10 2 Background or History of Freezing-Melting Process 448
10 3 Principles of Freezing-Melting Process 450
10 4 Major Types of Freezing-Melting Process 451
10 5 Direct-Contact Freezing 451
10 5 1 Ice Nucleation 451
10 511 Ice-Crystallization Unit 452
10 512 Hydrate Formation 456
xiv Contents
10 5 2 Ice Separation Unit 457
10 5 3 Wash Columns 457
10 531 Melting Unit 459
10 6 Gas Hydrate Process 459
10 7 Direct-Contact Eutectic Freezing 459
10 8 Indirect-Contact FM Process 460
10 8 1 Internally Cooled 460
10 811 Progressive Static Layer Growth
System as Block of Ice 460
10 812 Progressive Dynamic Layer Growth
(Falling Film Type) 461
10 813 Progressive Dynamic Layer Growth
(Circular Tube Type) 462
10 814 Melting of Progressive Layer or Block
Crystals 462
10 815 Progressive Layer Crystallization on
Rotating Drum 463
10 816 Progressive Suspension Growth 463
10 8 2 Externally Cooled 464
10 9 Pressure and Vacuum Processes 464
10 9 1 Vacuum System 464
10 9 2 Vapor-Compression System 465
10 9 3 Vapor-Absorption 465
10 9 4 Multiple-Phase Transformation 465
10 9 5 Pressure-Shift Nucleation and FM Process 466
10 10 Applications 466
10 11 Future Challenges 469
Acknowledgment 470
Abbreviations 471
References 471
11 Ion Exchange in Desalination 479
Bill Bornak
11 1 Introduction 480
11 2 Early Ion Exchange Desalination Processes 480
11 3 Life After RO 482
11 4 Ion Exchange Softening as Pre-Treatment 483
11 5 Softening by Ion Exchange 485
11 6 Boron-Selective Ion Exchange Resins as Post-Treatment 486
11 7 New Vessel Designs 491
Contents xv
11 8 New Resin Bead Design 493
11 9 Conclusion 494
References 495
12 Electrosorption of Heavy Metals with Capacitive
Deionization: Water Reuse, Desalination and
Resources Recovery 497
Pei Xu, Brian Elson and JörgEDrewes
12 1 Introduction 498
12 1 1 Removal of Heavy Metals from
Aqueous Solutions 498
12 1 2 Capacitive Deionization 500
12 2 Experimental Methods 502
12 2 1 CDI Treatment System 502
12 2 2 Feed Water Quality and Sample Analysis 504
12 3 Results and Discussions 506
12 3 1 CDI Voltage and Current Profiles 506
12 3 2 Removal of Heavy Metals from Electrolytes 507
12 3 3 Removal of Cyanide 514
12 4 Conclusions 518
References 516
13 Solar Desalination 525
Eydhah Almatrafi, D Yogi Goswami, Mohammad Abutayeh,
Chennan Li and Elias K Stefanakos
13 1 Introduction 526
13 2 Solar Desalination 528
13 2 1 Conventional Desalination 528
13 2 2 Renewable Energy Driven Desalination 528
13 2 3 Solar Energy-Driven Desalination 529
13 3 Direct Solar Desalination 530
13 3 1 Solar Still 530
13 3 2 Solar-Driven Humidification-
Dehumidification (HDH) 532
13 4 Indirect Solar Desalination 533
13 4 1 Phase Change Processes 533
13 411 Solar-Assisted Multi-Stage Flash 534
13 412 Solar-Assisted Multiple-
Effect Distillation 536
13 413 Solar-Assisted Heat Pumps (HP) 541
xvi Contents
13 4 2 Membrane Processes 542
13 421 Solar-Driven Reverse Osmosis 542
13 422 Solar-Driven Electro-Dialysis 545
13 423 Solar Thermal Driven Membrane
Distillation (MD) 548
13 5 Non-Conventional Solar Desalination 550
13 5 1 Solar-Assisted Passive Vacuum 550
13 5 2 Power-Water Cogeneration 553
13 6 Solar Integration and Environmental Considerations 553
13 6 1 System Integration 553
13 6 2 Solar System Considerations 554
13 6 3 Solar Collectors 556
13 6 4 Solar Pond 556
13 6 5 Photovoltaics 557
13 6 6 Environmental Impact 558
Nomenclature 559
References 560
14 Wind Energy Powered Desalination Systems 567
Jaime Gonz amp;lez, Pedro Cabrera and Josi A Carta
14 1 Introduction 568
14 2 Basic Wind Technology Concepts 570
14 2 1 Brief Classification of Wind Energy Exploitation
Systems 570
14 2 2 Horizontal-Axis Wind Turbine Components 574
14 221 Energy Acquisition Subsystem 575
14 222 Mechanical Power Transmission
Subsystem 579
14 223 Yaw Subsystem 583
14 224 Electrical Subsystem 584
14 225 Control Subsystem 589
14 226 Support Subsystem 589
14 3 Particular Characteristics of Wind Energy 590
14 3 1 Wind Resource Estimation 591
14 4 Classification of Wind-Driven Desalination Systems 598
14 4 1 On-Grid Wind Energy Systems for
Desalination 600
14 411 Wind Turbines that Dump all the
Generated Energy into the Grid 602
14 412 Micro-Grids Interconnected with a
Conventional Grid 606
Contents xvii
14 5 Off-Grid Wind Energy Systems for Desalination 608
14 5 1 Small-Scale Systems 608
14 511 Electrical Interface in the Coupling
between Wind Energy and
Desalination Unit 609
14 512 Mechanical and Hydrostatic Interfaces
in the Coupling between Wind Energy
and Desalination Unit 617
14 5 2 Medium- and Large-Scale Systems 620
14 521 Electrical Interface in the Coupling
between Wind Energy System and
Desalination Unit 621
14 522 Mechanical and Hydrostatic Interfaces
in the Coupling between Wind Energy
System and Desalination Unit 628
14 6 Wind-Diesel Systems for Desalination 630
14 7 Conclusions and Future Trends 634
List of Symbols 638
References 639
15 Geothermal Desalination 647
Veera Gnaneswar Gude
15 1 Introduction 648
15 2 Renewable Energy Powered Desalination 649
15 3 Geothermal Energy Utilization Around the World 649
15 4 The Rationale - Why Geothermal Desalination? 651
15 4 1 Capacity Factor 652
15 4 2 Comparable Costs 653
15 4 3 Efficient Resource Utilization 654
15 4 4 Integrated Uses for Geothermal Energy Sources 655
15 5 Global Geothermal Desalination Potential 656
15 5 1 Geothermal Water Composition 657
15 5 2 Geothermal Water for Thermal Desalination 659
15 5 3 Geothermal Water for Membrane Desalination 660
15 6 Geothermal Desalination - State of the Art 661
15 6 1 Thermal Desalination Processes 661
15 6 2 Membrane Desalination Processes 663
15 7 Desalination Process Selection 667
15 7 1 Plant Size 667
15 7 2 Geothermal Energy Quality and Quantity and
other Renewable Energy Sources 668
xviii Contents
15 7 3 Desalination Technology 668
15 7 4 Feed Water 668
15 7 5 Product Water 669
15 7 6 Brine Disposal 669
15 7 7 Techno-Economic Requirements 669
15 8 Challenges and Considerations for Geothermal
Desalination Implementation 670
15 8 1 Land Use 671
15 8 2 Geological Hazards 673
15 8 3 Waste Heat Releases 673
15 8 4 Atmospheric Emissions 673
15 8 5 Water Footprint 674
15 8 6 Noise and Social Impacts 674
15 9 Techno-Economics of Geothermal Desalination 674
15 10 Summary 676
References 678
16 Future Expectations 683
16 1 Introduction 683
16 2 Historical Trends in Fresh Water Supply Development 684
16 3 Emerging Trends and Directions in Alternative
Water Supply Development 687
16 3 1 Desalination of Impaired Waters 692
16 311 El Paso’s Kay Bailey Hutchison
Desalting Plant 693
16 3 2 Impaired Water Usage in Energy Production 696
16 321 Palo Verde Nuclear Power Plant,
Arizona 698
16 3 3 Salinization 699
16 4 Desalination for Oil and Gas 700
16 4 1 Treatment of Produced Water from Conventional
Reservoirs 701
16 4 2 Designer Waterflooding for Enhanced
Oil Recovery 702
16 421 Conventional Reservoirs 702
16 422 Unconventionals 704
16 4 3 Treat to Need 705
16 4 4 Treatment of Hydrofracking Flowback 706
16 4 5 Water Treatment and the Oil Sands 710
16 5 The Future of Desalination Technologies 712
16 5 1 Biomimetic and Nanotech Membranes 715
Contents xix
16 5 2 Desalination with Renewables 716
16 6 Summary 716
References 717
List of Contributors 721
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| id | DE-604.BV046250877 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T08:39:34Z |
| institution | BVB |
| isbn | 9781119407744 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-031629098 |
| oclc_num | 1128848754 |
| open_access_boolean | |
| owner | DE-29 |
| owner_facet | DE-29 |
| physical | xix, 745 Seiten Illustrationen 24 cm |
| publishDate | 2019 |
| publishDateSearch | 2019 |
| publishDateSort | 2019 |
| publisher | Wiley Scrivener Publishing |
| record_format | marc |
| spelling | Desalination water from water edited by Jane Kucera 2nd edition Hoboken, NJ Wiley 2019 Beverly, MA Scrivener Publishing 2019 xix, 745 Seiten Illustrationen 24 cm txt rdacontent n rdamedia nc rdacarrier Enthält Literaturangaben Entsalzung (DE-588)4124842-9 gnd rswk-swf Erneuerbare Energien (DE-588)4068598-6 gnd rswk-swf Membranverfahren (DE-588)4231727-7 gnd rswk-swf Wasser (DE-588)4064689-0 gnd rswk-swf Meerwasserentsalzung (DE-588)4038339-8 gnd rswk-swf Thermodynamischer Prozess (DE-588)7660024-5 gnd rswk-swf Wasseraufbereitung (DE-588)4064698-1 gnd rswk-swf Wasser (DE-588)4064689-0 s Wasseraufbereitung (DE-588)4064698-1 s Entsalzung (DE-588)4124842-9 s 1\p DE-604 Erneuerbare Energien (DE-588)4068598-6 s 2\p DE-604 Membranverfahren (DE-588)4231727-7 s 3\p DE-604 Thermodynamischer Prozess (DE-588)7660024-5 s 4\p DE-604 Meerwasserentsalzung (DE-588)4038339-8 s 5\p DE-604 Kucera, Jane (DE-588)107546935X edt HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031629098&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 4\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 5\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | Desalination water from water Entsalzung (DE-588)4124842-9 gnd Erneuerbare Energien (DE-588)4068598-6 gnd Membranverfahren (DE-588)4231727-7 gnd Wasser (DE-588)4064689-0 gnd Meerwasserentsalzung (DE-588)4038339-8 gnd Thermodynamischer Prozess (DE-588)7660024-5 gnd Wasseraufbereitung (DE-588)4064698-1 gnd |
| subject_GND | (DE-588)4124842-9 (DE-588)4068598-6 (DE-588)4231727-7 (DE-588)4064689-0 (DE-588)4038339-8 (DE-588)7660024-5 (DE-588)4064698-1 |
| title | Desalination water from water |
| title_auth | Desalination water from water |
| title_exact_search | Desalination water from water |
| title_full | Desalination water from water edited by Jane Kucera |
| title_fullStr | Desalination water from water edited by Jane Kucera |
| title_full_unstemmed | Desalination water from water edited by Jane Kucera |
| title_short | Desalination |
| title_sort | desalination water from water |
| title_sub | water from water |
| topic | Entsalzung (DE-588)4124842-9 gnd Erneuerbare Energien (DE-588)4068598-6 gnd Membranverfahren (DE-588)4231727-7 gnd Wasser (DE-588)4064689-0 gnd Meerwasserentsalzung (DE-588)4038339-8 gnd Thermodynamischer Prozess (DE-588)7660024-5 gnd Wasseraufbereitung (DE-588)4064698-1 gnd |
| topic_facet | Entsalzung Erneuerbare Energien Membranverfahren Wasser Meerwasserentsalzung Thermodynamischer Prozess Wasseraufbereitung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031629098&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kucerajane desalinationwaterfromwater |