Elements of
Chemical Reaction Engineering
6th Edition



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Essentials of
Chemical Reaction Engineering
Second Edition

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Chapter 12: Steady-State Nonisothermal Reactor Design: Flow Reactors with Heat Exchange

Living Example Problems

The following examples can be accessed with Polymath™, MATLAB™, or Wolfram CDF Player™.

Note: When downloading Python code files over Chrome browser, you may see a security warning. We assure you that these files are secure and you may keep them on your computer.

  1. LEP : Click here to view LEP Tutorials
  2. Polymath : Click here to view Polymath Tutorials
  3. Python : Click here to view Python Tutorials
  4. MATLAB : Click here to view MATLAB Tutorials
  5. Wolfram : Click here to download Wolfram CDF Player. You can run the CDF code, download Wolfram CDF Player for free. Click here to view Wolfram Tutorials
Living Example Problem Polymath™ Code MATLAB Code Python Code Wolfram CDF Code

Tutorial

AspenTech ™
LEP Table 12-2 computer experiment LEP-T12-2.pol LEP_T12_2.mlx LEP-T12-2.py LEP-T12-2.cdf --
Example 12-1 Isomerization of Normal Butane with Heat Exchanger

a) Co-current: LEP-12-1a.pol
b) Countercurrent: LEP-12-1b.pol
c) Constant T a : LEP-12-1c.pol
d) Adiabatic: LEP-12-1d.pol

a) Co-current: LEP_12_1a.mlx
b) Countercurrent: LEP_12_1b.mlx
c) Constant T a : LEP_12_1c.mlx
d) Adiabatic: LEP_12_1d.mlx

a) Co-current: LEP-12-1a.py
b) Countercurrent: LEP-12-1b.py
c) Constant T a : LEP-12-1c.py
d) Adiabatic: LEP-12-1d.py

a) Co-current: LEP-12-1a.cdf
b) Countercurrent: LEP-12-1b.cdf
c) Constant T a : LEP-12-1c.cdf
d) Adiabatic: LEP-12-1d.cdf

--
Example 12-2 Production of Acetic Anhydride a) Adiabatic: LEP-12-2a.pol
b) Constant T a : LEP-12-2b.pol
c) Co-current LEP-12-2c.pol
d) Countercurrent: LEP-12-2d.pol 		a) Adiabatic: LEP_12_2a.mlx
b) Constant T a : LEP_12_2b.mlx
c) Co-current: LEP_12_2c.mlx
d) Countercurrent: LEP_12_2d.mlx 		a) Adiabatic: LEP-12-2a.py
b) Constant T a : LEP-12-2b.py
c) Co-current: LEP-12-2c.py
d) Countercurrent: LEP-12-2d.py 		a) Adiabatic: LEP-12-2a.cdf
b) Constant T a : LEP-12-2b.cdf
c) Co-current: LEP-12-2c.cdf
d) Countercurrent: LEP-12-2d.cdf 		a) Adiabatic: Tutorial , ASPEN Backup File
b) Constant Heat Exchange: Tutorial , ASPEN Backup File
Example 12-3 Production of Propylene Glycol in an Adiabatic CSTR LEP-12-3.pol LEP_12_3.mlx LEP-12-3.py LEP-12-3.cdf --
Example 12-4 CSTR with a Cooling Coil LEP-12-4.pol LEP_12_4.mlx LEP-12-4.py LEP-12-4.cdf --
Example 12-5 Parallel Reaction in a PFR with Heat Effects LEP-12-5.pol LEP_12_5.mlx LEP-12-5.py LEP-12-5.cdf --
Example 12-6 Multiple Reactions in a CSTR LEP-12-6.pol
Alternative Solution: LEP-12-6a.pol 		LEP_12_6.mlx LEP-12-6.py LEP-12-6.cdf --
Example 12-7 Complex Reactions a) Co-current: LEP-12-7a.pol
b) Countercurrent: LEP-12-7b.pol
c) Constant T a : LEP-12-7c.pol
d) Adiabatic: LEP-12-7d.pol 		a) Co-current: LEP_12_7a.mlx
b) Countercurrent: LEP_12_7b.mlx
c) Constant T a : LEP_12_7c.mlx
d) Adiabatic: LEP_12_7d.mlx 		a) Adiabatic: LEP-12-7a.py
b) Constant T a : LEP-12-7b.py
c) Co-current: LEP-12-7c.py
d) Countercurrent: LEP-12-7d.py 		a) Co-current: LEP-12-7a.cdf
b) Countercurrent: LEP-12-7b.cdf
c) Constant T a : LEP-12-7c.cdf
d) Adiabatic: LEP-12-7d.cdf 		--
Example R12-1 Industrial Oxidation of SO 2 LEP-RE12-1.pol LEP-RE12-1.zip -- -- --
Example Lecture 19 A=B Adiabatic Adiabatic A=B.pol -- Adiabatic A=B.py Adiabatic A=B.cdf --