Elements of
Chemical Reaction Engineering
6th Edition



Home



Essentials of
Chemical Reaction Engineering
Second Edition

  Select  Chapter  >>     TOC     Preface     1     2     3     4     5     6     7     8     9     10     11     12     13     14     15     16     17     18     Appendices  
›

By Chapter Hide

  • Objectives
  • Living Example Problems
  • Extra Help
  • - Summary Notes
  • - LearnChemE Screencasts
  • - FAQs
  • - Interactive Computer Modules
  • Additional Material
  • Self Test
  • i>Clicker Questions
  • Professional Reference Shelf

By Concept Hide

  • Interactive Modules
  • -Web Modules
  • -Interactive Computer Games
  • Living Example Problems

U of M Hide

  • Asynchronous Learning
  • ChE 344
  • ChE 528

Chapter 11 Video Screencasts

Heat of Reaction (from Heat of Formation)
Highly Recommended
LearnChemE
A useful thermodynamic example describing how to calculate the heat of reaction at different temperatures. Very helpful and straightforward solving process used. [Section 11.3.1]
View Screencast
Adiabatic Reactor Temperature
Highly Recommended
LearnChemE
An introductory example showing how to relate changes in temperature to conversion of the reactants using a variation of the Arrhenius equation. [Section 11.4]
View Screencast
Non Adiabatic PFR Energy Balances
Recommended
LearnChemE
An in depth, but very linear and helpful, derivation of the energy balance for a plug flow reactor, explaining the purpose of each term involved. [Section 11.3]
View Screencast
Energy Balance on a Semi-Batch Reactor
Recommended
LearnChemE
An in depth derivation of the energy balance of a semi-batch reactor. Good application problem to help continued mastery of the concepts used. [Section 11.3]
View Screencast
Adiabatic CSTR Example
Recommended
LearnChemE
An example solving the mass and energy balance of an adiabatic CSTR. Description of each term and their uses in certain situations. [Section 11.4]
View Screencast
Turbo Retro Thermoencabulator
Recommended
LearnChemE
Analyze this device using the principles of Chapter 11.
View Screencast