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Principles and Modern Applications of Mass Transfer Operations

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en Limba Engleză Carte Hardback – 07 Feb 2017
A staple in any chemical engineering curriculum

  • New edition has a stronger emphasis on membrane separations, chromatography and other adsorptive processes, ion exchange
  • Discusses many developing topics in more depth in mass transfer operations, especially in the biological engineering area
  • Covers in more detail phase equilibrium since distillation calculations are completely dependent on this principle
  • Integrates computational software and problems using Mathcad
  • Features 25-30 problems per chapter
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Specificații

ISBN-13: 9781119042730
ISBN-10: 1119042739
Pagini: 624
Dimensiuni: 186 x 261 x 34 mm
Greutate: 1.24 kg
Ediția: 3rd Edition
Editura: Wiley
Locul publicării: Hoboken, United States

Public țintă

First courses in Mass Transfer Operations and Separation Sciences; professors and students in chemical engineering programs.
Chemical engineers, environmental engineers, researchers, and academics.
Members of AIChE, ACS.

Textul de pe ultima copertă

A problem–solving approach that helps students master new material and put their knowledge into practice The Second Edition of the acclaimed Principles and Modern Applications of Mass Transfer Operations continues to provide a thorough, accessible text that gives students the support and the tools they need to quickly move from theory to application. This latest edition has been thoroughly revised and updated with new discussions of such developing topics as membrane separations, ion exchange, multistage batch distillation, and chromatography and other adsorptive processes. Moreover, the Second Edition now covers mass transfer phenomena in biological systems, making the text appropriate for students in biochemical engineering as well as chemical engineering.
Complementing the author′s clear discussions are several features that help students quickly master new material and put their knowledge into practice, including:
  • Twenty–five to thirty problems at the end of each chapter that enable students to use their newfound knowledge to solve problems
  • Examples and problems that help students become proficient working with Mathcad
  • Figures and diagrams that illustrate and clarify complex concepts and processes
  • References facilitating further in–depth research into particular topics
  • Ten appendices filled with helpful data and reference materials
Ideal for a first course in mass transfer operations, this text has proven to be invaluable to students in chemical and environmental engineering as well as researchers and university faculty.

Cuprins

Preface to the Second Edition. Preface to the First Edition.
Nomenclature.
1. Fundamentals of Mass Transfer.
1.1 introduction.
1.2 Molecular Mass Transfer.
1.3 The Diffusion Coefficient.
1.4 Steady–State Molecular Diffusion in Fluids.
1.5 Steady–State Diffusion in Solids.
1.6 Diffusion with Homogeneous Reaction.
1.7 Analogies Among Molecular Transfer Phenomena.
Problems.
References.
2. Convective Mass Transfer.
2.1 introduction.
2.2 Mass–Transfer Coefficients.
2.3 Dimensional Analysis.
2.4 Flow Past Flat Plate; Boundary Layer.
2.5 Mass– and Heat–Transfer Analogies.
2.6 Convective Mass–Transfer Correlations.
2.7 Estimation of Multicomponent Mass–Transfer Coefficients.
Problems.
References.
3. Interphase Mass Transfer.
3.1 introduction.
3.2 Equilibrium.
3.3 Diffusion Between Phases.
3.4 Material Balances.
3.5 Equilibrium–Stage Operations.
Problems.
References.
4. Equipment for Gas–Liquid Mass–Transfer Operations.
4.1 introduction.
4.2 Gas–Liquid Operations: Liquid Dispersed.
4.3 Gas–Liquid Operations: Gas Dispersed.
Problems.
References.
5. Absorption and Stripping.
5.1 introduction.
5.2 Countercurrent Multistage Equipment.
5.3 Countercurrent Continuous–Contact Equipment.
5.4 Thermal Effects During Absorption and Stripping.
Problems.
References.
6. Distillation.
6.1 introduction.
6.2 Single–Stage Operation–Flash Vaporization.
6.3 Differential Distillation.
6.4 Continuous Rectification–Binary Systems.
6.5 Mccabe–Thiele Method for Trayed Towers.
6.6 Binary Distillation in Packed Towers.
6.7 Multicomponent Distillation.
6.8 Fenske–Underwood–Gilliland Method.
6.9 Rigorous Calculation Procedures for Multicomponent Distillation.
6.10 Batch Distillation.
Problems.
References.
7. Liquid–Liquid Extraction.
7.1 introduction.
7.2 Liquid Equilibria.
7.3 Stagewise Liquid–Liquid Extraction.
7.4 Equipment for Liquid–Liquid Extraction.
Problems.
References.
8. Humidification Operations.
8.1 introduction.
8.2 Equilibrium Considerations.
8.3 Adiabatic Gas–Liquid Contact Operations.
Problems.
References.
9. Membranes, Solid Sorption Agents.
9.1 introduction.
9.2 Mass Transfer in Membranes.
9.3 Equilibrium in Porous Sorbents.
9.4 Mass Transfer in Fixed Beds of Sorbents.
9.5 Applications of Membrane–Seperation Processes.
9.6 Applications of Sorption Processes.
Problems.
References.
Appendix A Binary Diffusion Coefficients.
Appendix B Lennard–Jones Constants.
Appendix C Maxwell–Stefan Equations.
Appendix D Packed–Column Design .
Appendix E Sieve–Tray Design Program.
Appendix F–1 Mcabe–Thiele Liquid Feed.
Appendix F–2 McCabe–Thiele Vapor Feed.
Appendix G–1 Single–Stage Extraction.
Appendix G–2 Multistage Crosscurrent Extraction.
Appendix H Constants and Unit Conversions.
Index.

Notă biografică

Jaime Benítez, PhD, has been teaching mass transfer operations to chemical engineers for some thirty–two years. Dr. Benítez is a Professor in the Chemical Engineering Department of the University of Puerto Rico at Mayagüez.