Difference between revisions of "Main Page"

From Introduction to Reactor Design: 3K4
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** The heat transfer coefficient should be \(U = 631\,\text{W.m}^{-2}\text{.K}^{-1}\)
** The heat transfer coefficient should be \(U = 631\,\text{W.m}^{-2}\text{.K}^{-1}\)
** The following requirements have also been removed from the project, because they are not a core part of the course.
** The following requirements have also been removed from the project, because they are not a core part of the course.
*** No need for any mechanical design, materials of construction (e.g. cross out the 3rd bullet point of step 3)
*** No need for any mechanical design, materials of construction (i.e. cross out the entire 3rd bullet point of step 3)
** I will be specifying the gas viscosity, particle size of the catalyst, and the number of tubes to use in the next day or two. For now you should be able to use reasonable estimates of these, based on what typical reactors look like and by looking up typical values.
** I will be specifying the gas viscosity, particle size of the catalyst, and the number of tubes to use in the next day or two. For now you should be able to use reasonable estimates of these, based on what typical reactors look like and by looking up typical values.
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Revision as of 23:21, 24 March 2013

Introduction to Reactor Design: CHE 3K4
Administrative Class materials
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Announcements (previous ones) or

  • 21 Mar: I was surprised that most of you had not seen structured variables in MATLAB before in tonight's class. I had assumed you were familiar with them. I have updated the code to show how structured variables can be used to carry information around between the outer function (driver.m) and the inner function (pfr_example.m).
  • 24 Mar: Project update 1
    • The project due date has been postponed to 04 April, at 17:30, to give you some more time to get a really good simulation and report together.
    • The heat transfer coefficient should be \(U = 631\,\text{W.m}^{-2}\text{.K}^{-1}\)
    • The following requirements have also been removed from the project, because they are not a core part of the course.
      • No need for any mechanical design, materials of construction (i.e. cross out the entire 3rd bullet point of step 3)
    • I will be specifying the gas viscosity, particle size of the catalyst, and the number of tubes to use in the next day or two. For now you should be able to use reasonable estimates of these, based on what typical reactors look like and by looking up typical values.
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Topic Latest slides (last update)
0. Course outline and overview Nuvola mimetypes pdf.png PDF
1. Mole balances Nuvola mimetypes pdf.png PDF (16 Jan, 19:00)
2. Conversion and reactor sizing Nuvola mimetypes pdf.png PDF (21 Jan, 19:45)
3. Rate laws and stoichiometry Nuvola mimetypes pdf.png PDF (31 Jan, 19:50)
4. Isothermal reactor design No slides
5. Collection and analysis of rate data No slides
6. Multiple reactions No slides
7. Steady-state nonisothermal reactor design No slides
8. Distributions of residence times No slides
9. Course wrap up

Suggested course readings


Assignments, projects, exams Course calendar
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Assignments and Tutorials (by week number)

Week number Tutorial Assignment
2 Tutorial 1 and assignment 1 (with solutions)
3 Tutorial 2 Assignment 2 (with solutions)
4 Tutorial 3
5, 6 and 7 Tutorial 4

Tutorial 5

Assignment 3A (with solutions)

Assignment 3B (with solutions)

8 and 9 Tutorial 6

Tutorial 7

Assignment 4: parts of both tutorials
10 and 11

Question/answer session for your course project.


Tests, exams and project

See all your course calendars here: http://learnche.mcmaster.ca/calendar

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