Difference between revisions of "Dynamic models - 2014"

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| vimeoID1 = 84058665
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| video_download_link_MP4 = http://learnche.mcmaster.ca/media/2014-3P4-Class-02A.mp4
| video_download_link_MP4 = http://learnche.mcmaster.ca/media/2014-3P4-Class-02A.mp4
| video_download_link_MP4_size = 356 M
| video_download_link_MP4_size = 361 M
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| video_download_link2_MP4 = http://learnche.mcmaster.ca/media/2014-3P4-Class-02B.mp4
| video_download_link2_MP4 = http://learnche.mcmaster.ca/media/2014-3P4-Class-02B.mp4
| video_download_link2_MP4_size = M
| video_download_link2_MP4_size = 364 M
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| video_download_link3_MP4 = http://learnche.mcmaster.ca/media/2014-3P4-Class-02C.mp4
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Revision as of 16:38, 15 January 2014

Class date(s): 13 to 17 January 2014
Download video: Link (plays in Google Chrome) [361 M]
Download video: Link (plays in Google Chrome) [364 M]


Readings and preparation for class; video and audio files

Date Class number Reading (Marlin) Reading (Seborg*) Reading (other) Handout Video and audio files
13 January 02A Chapter 3 and Appendix B Chapter 2 None Video (361M) Audio (42M)
15 January 02B Chapter 3 Chapter 2 None Video (364M) Audio (43M)
17 January 02C Chapter 3 Chapter 2

* The book by Seborg et al. is easily available new or second hand, as it was the prescribed textbook in 2013 (Marlin's book was prescribed in 2012). I will make reference to the chapters from Seborg on the website as well.

Test your understanding before and after class with these resources from Dr. Thomas Marlin. This website also contains full Powerpoint slides for each chapter from his textbook. Use this as a resource if you are still waiting for your copy of the Marlin textbook to arrive.

Computer code: class 02B, 15 January

In a file called cstr_height.m: 

function d_depnt__d_indep = cstr_height(indep, depnt)
 
% Dynamic balance for the CSTR height

%    indep: the independent ODE variable, such as time or length or the reactor
%    depnt: a VECTOR of dependent variables
% 
%    Returns:
%
%    d(depnt)
%   ---------- = a vector of ODEs
%    d(indep)
 
% Assign some variables for convenience of notation: one row per DEPENDENT variable
h = depnt(1);
 
% Constant and other equations
A = 0.5;      % m^2
F_i = 0.8;    % m^3/min
R   = 15;     % min/m^2
F_o = h/R;    % m^3/min

% Output from this ODE function must be a COLUMN vector, with n rows
% n = how many ODEs in this system?
n = numel(depnt); d_depnt__d_indep = zeros(n,1);

% Specify every element in the vector below: 1, 2, ... n
d_depnt__d_indep(1) = 1/A * (F_i - F_o);

The call the above model file from the "driver"; you can call this file anything, e.g. ODE_driver.m: 

% The independent variable always requires an initial and final value:
indep_start = 0.0;  % s
indep_final = 50.0; % s
 
% Set initial condition(s): for integrating variables (dependent variables)
h_depnt_zero = 4.0;    % i.e. h(t=0) = 3.0
 
IC = [h_depnt_zero];
  
% Integrate the ODE(s):
[indep, depnt] = ode45(@c02B_linear, [indep_start, indep_final], IC);
 % Plot the results:
clf;
plot(indep, depnt(:,1))
grid('on')
hold('on')

xlabel('Time [min]')
ylabel('Tank height')
legend('h')
title('Tank height with time')

% Does it match the analytical equation?
height = 12 - 8.*exp(-indep/7.5);
hold on
plot(indep, height, 'r.')
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