| Description |
1 online resource : illustrations (some color) |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
| Bibliography |
Includes bibliographical references and index. |
| Note |
Online resource; title from PDF title page (EBSCO, viewed July 3, 2018). |
| Contents |
Intro; Title page; Table of Contents; Copyright; Dedication; Contributors; Chapter 1: Introduction; Abstract; 1.1 General Overview of Technologies; 1.2 Kind of Membranes and the Implications in Modeling; 1.3 Mass Transfer in Laminar and Turbulent Flow; 1.4 Mass Transfer Through Membranes; 1.5 Polarization and Fouling Phenomena; Chapter 2: Microfiltration, ultrafiltration, nanofiltration, reverse osmosis, and forward osmosis; Abstract; 2.1 Introduction; 2.2 Process Description and Operating mode; 2.3 General Overview of Applications; 2.4 System Configuration; 2.5 Hydraulic Resistance |
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2.6 Modeling of Microfiltration (MF)2.7 Modeling of Ultrafiltration (UF); 2.8 Modeling of Nanofiltration (NF); 2.9 Modeling of Organic Solvent Nanofiltration (OSN); 2.10 Modeling of Reverse Osmosis (RO); 2.11 Modeling of Forward Osmosis (FO); 2.12 Module Performance; 2.13 Conclusions; Chapter 3: Pervaporation; Abstract; 3.1 Process Description; 3.2 General Overview of Applications; 3.3 Mass Transfer in Pervaporation; 3.4 Interpretation of Pervaporation Results; 3.5 McCabe-Thiele Diagram; 3.6 Coupling Effects; 3.7 Concluding Remarks; Chapter 4: Gas permeation and supported liquid membranes |
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Abstract4.1 Process Description; 4.2 General Overview of Applications; 4.3 Mass Transfer in Gas Permeation; 4.4 Mass Transfer in SLMs; 4.5 Interpretation of Results; 4.6 Concluding Remarks; Chapter 5: Membrane contactors; Abstract; 5.1 Process Description; 5.2 Mathematical Description of Mass Transfer in a Membrane Contactor; 5.3 Membrane-based Absorption; 5.4 Membrane-based Solvent Extraction; 5.5 Membrane distillation-crystallization; 5.6 Membrane Emulsification; 5.7 Contactor Membrane Reactors; Chapter 6: Membrane bioreactors; Abstract; 6.1 Process Description |
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6.2 General Overview of Applications6.3 Design of Membrane Bioreactors; 6.4 Monitoring and Control of Membrane Bioreactors; 6.5 Modeling of Membrane Bioreactors; 6.6 Conclusions and Outlook; Chapter 7: Ion-exchange membrane systems-Electrodialysis and other electromembrane processes; Abstract; 7.1 Introduction; 7.2 Process Description; 7.3 General Overview of Applications; 7.4 Calculation of Selectivity in Electrodialysis; 7.5 Ion Transport Through Ion-Exchange Membranes; 7.6 Other Configurations of Electrodriven Membrane Processes; 7.7 Conclusions |
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Chapter 8: Hybrid processes based on membrane technologyAbstract; 8.1 Introduction; 8.2 Hybrids Based on Pressure-Driven Processes; 8.3 Hybrid Processes Based on Pervaporation; 8.4 Hybrid Processes Based on Gas Permeation; 8.5 Hybrid Processes Based on Membrane Contactors; 8.6 Hybrid Processes Based on Membrane Bioreactors; 8.7 Hybrids Based on Electro-Driven Processes; Index |
| Summary |
Fundamental Modelling of Membrane Systems: Membrane and Process Performance summarizes the state-of-the-art modeling approaches for all significant membrane processes, from molecular transport, to process level, helping researchers and students who carry out experimental research save time and accurately interpret experimental data. The book provides an overview of the different membrane technologies, handling micro-, ultra-, and nanofiltration, reverse and forward osmosis, pervaporation, gas permeation, supported liquid membranes, membrane contactors, membrane bioreactors and ion-exchange membrane systems. Examples of hybrid membrane systems are also included. |
| Subject |
Membranes (Technology)
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Membranes (Technologie)
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SCIENCE -- Chemistry -- Industrial & Technical.
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TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.
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Membranes (Technology)
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| Added Author |
Luis, Patricia, editor.
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| Other Form: |
Print version: 9780128134832 |
| ISBN |
9780128134849 (electronic bk.) |
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0128134844 (electronic bk.) |
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0128134836 |
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9780128134832 |
| Standard No. |
UKMGB 018831865 |
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