Ultrafiltration and Microfiltration Handbook. (1998)
- Record Type:
- Book
- Title:
- Ultrafiltration and Microfiltration Handbook. (1998)
- Main Title:
- Ultrafiltration and Microfiltration Handbook
- Further Information:
- Note: Munir Cheryan.
- Authors:
- Cheryan, Munir
- Contents:
- Cover; Half Title; Title Page; Copyright Page; Table of Contents; PREFACE; LIST OF ABBREVIATIONS; 1: INTRODUCTION; 1.A: Definition and Classification of Membrane Separation Processes; 1.B: Historical Developments; 1.C: Physical Chemistry of Membrane Separations; l.C.l: Chemical Potential and Osmosis; l.C.2: Vapor Pressure; 1.C.3: Osmotic Pressure and Chemical Potenti; References; 2: MEMBRANE CHEMISTRY, STRUCTURE, AND FUNCTION; 2: A: Definitions and Classification; 2: A: 1: Depth Versus Screen Filters; 2.A.2: Microporous Versus Asymmetric Membranes; 2.B: General Methods of Membrane Manufacture 2.B: 1: Phase-Inversion Process of Membrane Manufacture2.C: Polymers Used in Membrane Manufacture; 2.C.I: Cellulose Acetate; 2.C.2: Polyamide Membranes; 2.C.3: Polysulfone Membranes; 2.C.4: Other Polymeric Materials; 2.D: Composite Membranes; 2: E: Inorganic Membranes; 2.E.I: Properties of Inorganic Membranes; References; 3: MEMBRANE PROPERTIES; 3: A: Pore Size; 3.A.I: Bubble Point and Pressure Techniques; 3.A.2: Direct Microscopic Observation; 3.B: Predicting Flux from Pore Statistics; 3.B.I: Example; 3.C Passage (Challenge) Tests; 3.C.1 Microfiltration Membranes 3.C.2: Ultrafiltration Membranes3.D: Factors Affecting Retentivity of Membranes; 3.D.I: Size of the Molecule; 3.D.2: Shape of the Molecule; 3.D.3: Membrane Material; 3.D.4: Presence of Other Solutes; 3.D.5: Operating Parameters; 3.D.6: Lot-to-Lot Variability; 3.D.7: Membrane Configuration; 3.D.8: Fouling and AdsorptionCover; Half Title; Title Page; Copyright Page; Table of Contents; PREFACE; LIST OF ABBREVIATIONS; 1: INTRODUCTION; 1.A: Definition and Classification of Membrane Separation Processes; 1.B: Historical Developments; 1.C: Physical Chemistry of Membrane Separations; l.C.l: Chemical Potential and Osmosis; l.C.2: Vapor Pressure; 1.C.3: Osmotic Pressure and Chemical Potenti; References; 2: MEMBRANE CHEMISTRY, STRUCTURE, AND FUNCTION; 2: A: Definitions and Classification; 2: A: 1: Depth Versus Screen Filters; 2.A.2: Microporous Versus Asymmetric Membranes; 2.B: General Methods of Membrane Manufacture 2.B: 1: Phase-Inversion Process of Membrane Manufacture2.C: Polymers Used in Membrane Manufacture; 2.C.I: Cellulose Acetate; 2.C.2: Polyamide Membranes; 2.C.3: Polysulfone Membranes; 2.C.4: Other Polymeric Materials; 2.D: Composite Membranes; 2: E: Inorganic Membranes; 2.E.I: Properties of Inorganic Membranes; References; 3: MEMBRANE PROPERTIES; 3: A: Pore Size; 3.A.I: Bubble Point and Pressure Techniques; 3.A.2: Direct Microscopic Observation; 3.B: Predicting Flux from Pore Statistics; 3.B.I: Example; 3.C Passage (Challenge) Tests; 3.C.1 Microfiltration Membranes 3.C.2: Ultrafiltration Membranes3.D: Factors Affecting Retentivity of Membranes; 3.D.I: Size of the Molecule; 3.D.2: Shape of the Molecule; 3.D.3: Membrane Material; 3.D.4: Presence of Other Solutes; 3.D.5: Operating Parameters; 3.D.6: Lot-to-Lot Variability; 3.D.7: Membrane Configuration; 3.D.8: Fouling and Adsorption Effects; 3.D.9: The Microenvironment; References; 4: PERFORMANCE AND ENGINEERING MODELS; 4.A: The Velocity Boundary Layer; 4.B: The Concentration Boundary Layer; 4.C: Models for Predicting Flux: The Pressure-Controiled Region; 4.D: Concentration Polarization 4.E: Mass Transfer (Film Theory) Model4.E.I: Determining the Mass Transfer Coefficient; 4.E.2: Example; 4.F: The Resistance Model; 4.G: Osmotic Pressure Model for Limiting Flux; 4.H: Factors Affecting Flux: Operating Parameters; 4.H.I: Feed Concentration; 4.H.2: Temperature; 4.H.3: Flow Rate and Turbulence; 4.I: Physical Properties of Liquid Streams; 4.I.1: Density; 4.I.2: Viscosity; 4.I.3: Diffusion Coefficients; 4.J: Experiment versus Theory: The "Flux Paradox"; 4: K: Design Factors Affecting Flux; References; 5: EQUIPMENT; 5: A: Laboratory-Scale Devices; 5.B: Industrial Equipment 5.B.I: Tubular Modules5.B.2: Hollow Fibers; 5.B.3: Plate Units; 5.B.4: Spiral-Wound; 5.C: Special Modules; 5.C.1 Rotary Modules; 5.C.2: Vibrating Modules; 5.C.3: Dean Vortices; 5.D: Summary; References; 6: FOULING AND CLEANING; 6: A: Characteristics of Fouling; 6: A.I: Water Flux; 6.B: Consequences of Fouling; 6.C: Mathematical Models of Fouling; 6.D: Factors Affecting Fouling; 6.D.I: Membrane Properties; 6.D.2: Solute Properties; 6.D.3: Process Engineering; 6.E: Flux Enhancement; 6.E.I: Turbulence Promoters/lnserts/Baffles; 6.E.2: Backflushing, -pulsing, -shocking, and -washing … (more)
- Edition:
- Second edition
- Publisher Details:
- Boca Raton, FL : CRC Press
- Publication Date:
- 1998
- Extent:
- 1 online resource
- Subjects:
- 660/.284245
Chemical engineering
Chemistry, Technical
Chemical engineering
Chemistry, Technical
Electronic books - Languages:
- English
- ISBNs:
- 9781482278743
- Related ISBNs:
- 148227874X
- Access Rights:
- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
- Access Usage:
- Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force.
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- Physical Locations:
- British Library HMNTS - ELD.DS.283451
- Ingest File:
- 01_190.xml