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Author Nagy, Endre, 1946- author.

Title Basic equations of the mass transport through a membrane layer / Endre Nagy.

Publication Info. London ; Waltham, MA : Elsevier, 2012.
©2012

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Location Call No. OPAC Message Status
 Axe Elsevier ScienceDirect Ebook  Electronic Book    ---  Available
Edition First edition.
Description 1 online resource (xii, 329 pages) : illustrations.
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
text file rdaft
Series Elsevier insights
Elsevier insights.
Bibliography Includes bibliographical references.
Contents 1. On Mass Transport Through a Membrane Layer. 1.1. General Remarks. 1.2. Transport Through Dense Membrane: Solution-Diffusion Theory. 1.3. Convective Transport Through a Porous Membrane Layer. 1.4. Component Transport Through a Porous membrane. 1.5. Application of the Maxwell-Stefan Equations. 1.6. Flory-Huggins Theory for Prediction of the Activity. 1.7. UNIQUAC Model -- 2. Molecular Diffusion. 2.1. Introduction. 2.2. Gas Diffusivities. 2.3. Prediction of Diffusivities in Liquids. 2.4. Diffusion of an Electrolyte Solution. 2.5. Diffusion in a Membrane. 2.6. Transport with Convective Velocity Due to the Component Diffusion. 2.7. Ion Transport and Hindrance Factors -- 3. Diffusion Through a Plane Membrane Layer. 3.1. Introduction. 3.2. Steady-State Diffusion. 3.3. Nonsteady-State Diffusion.
4. Diffusion Accompanied by Chemical Reaction Through a Plane Sheet. 4.1. Introduction. 4.2. Steady-State Condition. 4.3. Unsteady-State Diffusion and Reaction -- 5. Diffusive Plus Convective Mass Transport Through a Plane Membrane Layer. 5.1. Introduction. 5.2. Mass Transport Without Chemical Reaction. 5.3. Diffusive Plus Convective Mass Transport with an Intrinsic Catalytic Layer or with Fine Catalytic Particles -- 6. Diffusion in a Cylindrical Membrane Layer. 6.1. Introduction. 6.2. Steady-State Diffusion. 6.3. Diffusion Accompanied by Chemical Reaction.
7. Transport of Fluid Phase in a Capillary Membrane. 7.1. Introduction. 7.2. Flow Models for Fluid Phases on Both Sides of Capillary Membrane Modules. 7.3. Special Cases -- 8. Membrane Reactor. 8.1. Introduction. 8.2. Membrane Reactor Configurations. 8.3. Reaction Rate. 8.4. Modeling of Membrane Reactors -- 9. Membrane Bioreactor. 9.1. Introduction. 9.2. Configurations of Membrane Bioreactors. 9.3. Enzyme Membrane Reactor. 9.4. Mass Transfer Through a Biocatalytic Membrane Layer.
10. Nanofiltration. 10.1. Introduction. 10.2. Transport of Uncharged Solutes in Aqueous Solution. 10.3. Two-Layer Mass Transport: Coupled Effect of the Polarization and Membrane Layers (Nagy et al., 2011). 10.4. Solvent-Resistant Nanofiltration. 10.5. Spiegler-Kedem Transport Model. 10.6. Nanofiltration of Ionic Components -- 11. Pervaporation. 11.1. Introduction. 11.2. Fundamentals of Pervaporation. 11.3. Solution-Diffusion Model for Pervaporation. 11.4. Basic Equations of the Polarization Model. 11.5. Simultaneous Effect of the Polarization and Membrane Layers. 11.6. Concentration-Dependent Diffusivity. 11.7. Coupled Diffusion -- 12. Membrane Contactors. 12.1. Introduction. 12.2. Mass Transport. Membrane Distillation. 12.3. Introduction. 12.4. Mass Transport Through the Membrane. 12.5. Mass and Heat Balance Equations for the Lumen and Shell.
Note Print version record and online resource.
Summary With a detailed analysis of the mass transport through membrane layers and its effect on different separation processes, this book provides a comprehensive look at the theoretical and practical aspects of membrane transport properties and functions. Basic equations for every membrane are provided to predict the mass transfer rate, the concentration distribution, the convective velocity, the separation efficiency, and the effect of chemical or biochemical reaction taking into account the heterogeneity of the membrane layer to help better understand the mechanisms of the separation processes. Th.
Subject Biological transport.
Membranes (Biology)
Biological Transport
Membranes
Transport biologique.
Membranes (Biologie)
SCIENCE -- Life Sciences -- Cell Biology.
Biological transport
Membranes (Biology)
Other Form: Print version: Nagy, Endre, 1946- Basic equations of the mass transport through a membrane layer. 1st ed. Amsterdam ; Boston : Elsevier, 2012 9780124160255 (DLC) 2011944731 (OCoLC)757491257
ISBN 9781283374927
1283374927
9780123914255 (electronic bk.)
0123914256 (electronic bk.)
9780124160255 (print)
0124160255 (print)
Standard No. AU@ 000061144721
CHDSB 005985651
DEBBG BV042313711
DEBSZ 372825192
NZ1 15189565
NZ1 15905373

 
    
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