Introductory Chemical Engineering Thermodynamics, 2nd edition

Published by Pearson (July 6, 2022) © 2023

  • Carl T. Lira Michigan State University
  • J Richard Elliott

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ISBN-13: 9780132901093
Introductory Chemical Engineering Thermodynamics
Published 2012
  • Available for purchase from all major ebook resellers, including InformIT.com

Title overview

In this book, two leading experts and long-time instructors thoroughly explain therodynamics, taking the molecular perspective that working engineers require (and competitive books often avoid). This new Second Edition contains extensive new coverage of today's fast-growing biochemical engineering applications, notably biomass conversion to fuels and chemicals. It also presents many new MATLAB examples and tools to complement its previous usage of Excel and other software.

Table of contents

  • Unit I: First and Second Laws
  • Chapter 1: Basic Concepts
  • Chapter 2: The Energy Balance
  • Chapter 3: Energy Balances for Composite Systems
  • Chapter 4: Entropy 1
  • Chapter 5: Thermodynamics Of Processes
  • Unit II: Generalized Analysis of Fluid Properties
  • Chapter 6: Classical Thermodynamics – Generalizations For Any Fluid
  • Chapter 7: Engineering Equations of State for PVT Properties
  • Chapter 8: Departure Functions
  • Chapter 9: Phase Equilibrium in a Pure Fluid
  • Unit III: Fluid Phase Equilibria in Mixtures
  • Chapter 10: Introduction to Multicomponent Systems
  • Chapter 11: An Introduction To Activity Models
  • Chapter 12: van der Waals Activity Models
  • Chapter 13: Local Composition Activity Models
  • Chapter 14: Liquid-Liquid and Solid-Liquid Phase Equilibria
  • Chapter 15: Phase Equilibria in Mixtures by an Equation of State
  • Chapter 16: Advanced Phase Diagrams
  • Unit IV: Reaction Equilibria
  • Chapter 17: Reaction Equilibria
  • Chapter 18: Electrolyte Solutions
  • Chapter 19: Molecular Association and Solvation
  • Appendix A: Summary of Computer Programs
  • Appendix B: Mathematics
  • Appendix C: Strategies for Solving VLE Problems
  • Appendix D: Models for Process Simulators
  • Appendix E: Themodynamic Properties
  • Index

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