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Basic Equations of Mass Transport Through a Membrane Layer
Discusses mass transport expressions and explores the most significant membrane separation processes under different operating conditions.
Endre Nagy (Author)
9780128137222, Elsevier Science
Paperback, published 8 November 2018
594 pages
27.6 x 21.5 x 3.7 cm, 1.5 kg
Basic Equations of Mass Transport Through a Membrane Layer, Second Edition, has been fully updated to deliver the latest research in the field. This volume covers the essentials of compound separation, product removal, concentration, and production in the chemical, biochemical, pharmaceutical, and food industries. It outlines the various membrane processes and their applications, offering a detailed mathematical description of mass transport and defining basic mass transport and concentration distribution expressions. Additionally, this book discusses the process parameters and application of the expressions developed for a variety of industrial applications. Comprehensive explanations of convective/diffusive mass transport are provided, both with and without polarization layers, that help predict and process performance and facilitate improvements to operation conditions and efficiency. Basic Equations of Mass Transport Through a Membrane Layer is an ideal resource for engineers and technologists in the chemical, biochemical, and pharmaceutical industries, as well as researchers, professors, and students in these areas at both an undergraduate and graduate level.
1. Membrane Materials, Characterization, and Transport Properties2. Membrane Materials, Structures, and Modules3. Mass Transport Through a Membrane Layer4. Molecular Diffusion5. Diffusion Through a Plane Membrane Layer6. Diffusion Accompanied by Chemical Reaction Through a Plane Sheet7. Diffusive Plus Convective Mass Transport Through a Plane Membrane Layer8. Diffusive Plus Convective Mass Transport With Chemical Reaction Through a Plane Membrane Layer9. Diffusion in a Cylindrical Membrane Layer10. Mass Transport in the Presence of a Fouling Layer11. Membrane Contactors12. Transport of Fluid Phase in a Capillary Membrane13. Membrane Reactor14. Membrane Bioreactor15. Nanofiltration16. Pervaporation17. Forward Osmosis18. Membrane Gas Separation19. Membrane Distillation20. Reverse Osmosis21. Pressure-Retarded Osmosis (PRO) Process22. In Conclusion
Subject Areas: Chemical engineering [TDCB]
