Mass Transfer Operations for the Practicing Engineer
An invaluable guide for problem solving in mass transfer operations
This book takes a highly pragmatic approach to providing the principles and applications of mass transfer operations by offering a valuable, easily accessible guide to solving engineering problems. Both traditional and novel mass transfer processes receive treatment. As with all of the books in this series, emphasis is placed on an example-based approach to illustrating key engineering concepts.
The book is divided into two major parts. It starts with the principles underlying engineering problemsshowing readers how to apply general engineering principles to the topic of mass transfer operations. It then goes on to provide step-by-step guidance for traditional mass transfer operations, including distillation, absorption and stripping, and adsorption, plus novel mass transfer processes. Essential topics for professional engineering exams are also covered.
Geared towards chemical, environmental, civil, and mechanical engineers working on real-world industrial applications, Mass Transfer Operations for the Practicing Engineer features:
Numerous sample problems and solutions with real-world applications
Clear, precise explanations on how to carry out the basic calculations associated with mass transfer operations
Coverage of topics from the ground up for readers without prior knowledge of the subject
Overview of topics relevant to the ABET (Accreditation Board for Engineering and Technology) for those taking the Professional Engineering (PE) exams
Appendix containing relevant mass transfer operation charts and tables
Part One Introduction.
1. History of Chemical Engineering and Mass Transfer Operations.
2. Transport Phenomena vs Unit Operations Approach.
3. Basic Calculations.
Units and Dimensions.
Conversion of Units.
The Gravitational Constant gc.
Significant Figures and Scientific Notation.
4. Process Variables.
Moles and Molecular Weight.
Mass, Volume, and Density.
Ideal Gas Law.
5. Equilibrium vs Rate Considerations.
6. Phase Equilibrium Principles.
Gibb’s Phase Rule.
Raoult’s Law vs Henry’s Law.
Vapor-Liquid Equilibrium in Nonideal Solutions.
7. Rate Principles.
The Operating Line.
Diffusion in Gases.
Diffusion in Liquids.
Mass Transfer Coefficients.
Individual Mass Transfer Coefficients.
Diffusion of Component A Through Non-diffusing Component B.
Overall Mass Transfer Coefficients.
Equimolar Counterdiffusion and/or Diffusion in Dilute Solutions.
Gas Phase Resistance Controlling.
Liquid Phase Resistance Controlling.
Experimental Mass Transfer Coefficients.
Part Two Applications: Component and Phase Separation Processes.
8. Introduction to Mass Transfer Operations.
Classification of Mass Transfer Operations.
Contact of Immiscible Phases.
Miscible Phases Separated by a Membrane.
Direct Contact of Miscible Phases.
Mass Transfer Equipment.
Humidification and Drying.
Other Mass Transfer Unit Operations.
The Selection Decision.
Characteristics of Mass Transfer Operations.
Unsteady-State vs Steady-State Operation.
Stagewise vs Continuous Operation.
Continuous Distillation with Reflux.
Equipment and Operation.
Binary Distillation Design: McCabe-Thiele Graphical Method.
Multicomponent Distillation: Fenske-Underwood-Gilliland (FUG) Method.
Packed Column Distillation.
10. Absorption and Stripping.
Description of Equipment.
Design and Performance Equations?Packed Columns.
Design and Performance Equations-Plate Columns.
Packed vs Plate Tower Comparison.
Summary of Key Equations.
Description of Equipment.
Design and Performance Equations.
12. Liquid-Liquid and Solid-Liquid Extraction.
The Extraction Process.
Solid-Liquid Extraction (Leaching).
Equipment and Operation.
Design and Predictive Equations.
13. Humidification and Drying.
Psychrometry and the Psychrometric Chart.
The Crystallization Process.
Crystal Physical Characteristics.
15. Membrane Separation Processes.
16. Phase Separation Equipment.
Gas-Solid (G-S) Equipment.
Gas-Liquid (G-L) Equipment.
Liquid-Solid (L-S) Equipment.
Liquid-Liquid (L-L) Equipment.
Solid-Solid (S?S) Equipment.
High-Gradient Magnetic Separation.
Part Three Other Topics.
17. Other and Novel Separation Processes.
Liquid Ion Exchange.
18. Economics and Finance.
The Need for Economic Analyses.
Evaluation of Sums of Money.
Fabricated Equipment Cost Index.
Capital Recovery Factor.
Present Net Worth.
Approximate Rate of Return.
Exact Rate of Return.
Principles of Accounting.
19. Numerical Methods.
20. Open-Ended Problems.
Developing Students’ Power of Critical Thinking.
Failure, Uncertainty, Success: Are They Related?
Angels on a Pin.
Case Study Approach.
Engineering and Environmental Ethics.
22. Environmental Management and Safety Issues.
Environmental Issues of Concern.
Health Risk Assessment.
Risk Evaluation Process for Health.
Hazard Risk Assessment.
Risk Evaluation Process for Accidents.
Appendix A. Units.
A.1 The Metric System.
A.2 The SI System.
A.3 Seven Base Units.
A.4 Two Supplementary Units.
A.5 SI Multiples and Prefixes.
A.6 Conversion Constants (SI).
A.7 Selected Common Abbreviations.
Appendix B. Miscellaneous Tables.
Appendix C. Steam Tables.
LOUIS THEODORE, ENG SCD, is a professor in the Chemical Engineering Department at Manhattan College in Bronx, New York, and the recipient of the prestigious Ripperton Award from the International Air and Waste Management Association's and the American Society for Engineering Education's AT&T Foundation Award for "excellence in the instruction of engineering students." Professor Theodore is a contributor to Perry's Chemical Engineers' Handbook, the coeditor of Handbook of Chemical and Environmental Engineering Calculations (Wiley), the coauthor of Thermodynamics for the Practicing Engineer (Wiley), and the author of Fluid Flow for the Practicing Chemical Engineer and Air Pollution Control Equipment Calculations, also from Wiley.
FRANCESCO RICCI is the recipient of numerous academic awards and scholarships. Aside from academic research, Mr. Ricci's industrial experience includes short tenures at Air Products and Chemicals, Inc. and Bristol-Myers Squibb. He has lectured at the undergraduate level on chemical engineering thermodynamics as well as on reactor design. Mr. Ricci is the coauthor of Thermodynamics for the Practicing Engineer (Wiley), the author of the solutions manual for said text, and a contributing author to the 2009 title Introduction to Environmental Management.
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