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Progress in filtration and separation /
Progress in Filtration and Separation contains reference content on fundamentals, core principles, technologies, processes, and applications. It gives detailed coverage of the latest technologies and research, models, applications and standards, practical implementations, case studies, best practice...
| Cote: | Libro Electrónico |
|---|---|
| Autres auteurs: | |
| Format: | Électronique eBook |
| Langue: | Inglés |
| Publié: |
London :
Academic Press,
[2015]
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| Sujets: | |
| Accès en ligne: | Texto completo |
Table des matières:
- FrontCover; Copyright; LIST OF CONTRIBUTORS; Chapter One
- Hydrocyclones; NOMENCLATURE; 1. BACKGROUND; 2. BASIC DESIGN; 3. CHARACTERIZATION OF PERFORMANCE; 4. HYDROCYCLONE MODELS; 5. SCALE-UP AND DESIGN; 7. FUTURE DEVELOPMENTS; REFERENCES; Section 1 Membrane filters; 5. DISCUSSION; REFERENCES; Chapter three
- Membrane Distillation (MD); Acknowledgments; REFERENCES; Chapter Four
- Pervaporation; 2. FUNDAMENTALS OF PERVAPORATION; 5. HYDROPHOBIC PERVAPORATION; 10. CONCLUSIONS; REFERENCES; Chapter Five
- Liquid
- Membrane Filters; 2. THEORETICAL BACKGROUND OF SOLUTE TRANSPORT THROUGH LM.
- 5. CARRIER7. TYPES OF LM; Chapter Six
- Electrodialysis; Chapter Seventeen
- Capillary Suction Time (CST); 5. FEED-AND-BLEED ELECTRODIALYSIS PROGRAM; 2. MAGNETIC SEPARATION TECHNIQUES; 5. CONCLUSIONS; LIST OF RELEVANT WEB SITES; Chapter Eight
- Electric (Electro/Dielectro-Phoretic)-Force Field Assisted Separators; 1. INTRODUCTION; 4. COMPARISON OF ELECTRICALLY ASSISTED SEPARATION PROCESSES; REFERENCES; Chapter Nine
- Ultrasonic; 2. MD MODULES AND FLUID FLOW; 2. ORIGIN OF ULTRASONICALLY INDUCED EFFECTS; 7. MEMBRANE FILTRATION; Section 3 Membranes; Chapter Ten
- Ion Exchange.
- 2. ION EXCHANGE MATERIALSChapter Eleven
- Hot Gas Filters; Chapter Twelve
- Air Tabling-A Dry Gravity Solid-Solid Separation Technique; 2. HOT GAS FILTRATION-ADVANTAGES/DISADVANTAGES; 5. HOT GAS FILTER DESIGN; 1. INTRODUCTION; 4. PRINCIPLES OF AIR TABLING; 6. PERFORMANCE CURVE OF AIR TABLING; 3. PROCESS DESIGN; REFERENCES; Chapter Fourteen
- Surface Area: Brunauer-Emmett-Teller (BET); 2. REVIEW OF INDUSTRIAL DYNAMIC FILTRATION MODULES; 2. GAS-SOLID INTERFACE; 5. SAMPLE PREPARATION; 7. GRAVIMETRIC DYNAMIC VAPOUR SORPTION TECHNIQUE.
- Chapter two
- Dynamic Filtration with Rotating Disks, and Rotating or Vibrating MembranesChapter Fifteen
- Particle Shape Characterization by Image Analysis; 2. ELECTRODIALYZER; 1. INTRODUCTION; 4. BASIC SIZE DESCRIPTORS; 11. DISTRIBUTIONS; 12. 3D SHAPE; 13. CONCLUSIONS; REFERENCES; Chapter Sixteen
- Turbidity: Measurement of Filtrate and Supernatant Quality?; 2. ADVANTAGES OF TURBIDITY MEASUREMENTS; 5. POLISHING FILTRATION; 5. TURBIDITY INSTRUMENTS; 7. TECHNIQUES FOR ACCURATE TURBIDITY MEASUREMENTS; INDICES; 2. METHODS; 5. CONCLUSIONS; INDEX.