Difference between revisions of "Catalytic cracking problem"

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(Mathematical formulation)
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\begin{array}{llcl}
 
\begin{array}{llcl}
 
  \displaystyle \min_{\theta} &\sum\limits_{j=1}^{21} &&||y(\tau_j; \theta) - z_j||^2  \\[1.5ex]
 
  \displaystyle \min_{\theta} &\sum\limits_{j=1}^{21} &&||y(\tau_j; \theta) - z_j||^2  \\[1.5ex]
  \mbox{s.t.} & \dot{y}_1 & = &  -(\theta_1 + \theta_3) y_1^2, \\
+
  \mbox{s.t.}  
 +
& \dot{y}_1 & = &  -(\theta_1 + \theta_3) y_1^2, \\
 
  & \dot{y}_2 & = & \theta_1 y_1^2 - \theta_2 y_2.  \\
 
  & \dot{y}_2 & = & \theta_1 y_1^2 - \theta_2 y_2.  \\
 
\end{array}  
 
\end{array}  

Revision as of 19:03, 5 May 2016

Catalytic cracking problem
Algebraic states: 2
Continuous control values: 3

The Catalytic cracking problem tries to determine "reaction coefficients for the catalytic cracking of gas oil into gas and other byproducts." (Cite and problem taken from the COPS library)


Mathematical formulation

The problem is given by


\begin{array}{llcl}
 \displaystyle \min_{\theta} &\sum\limits_{j=1}^{21} &&||y(\tau_j; \theta) - z_j||^2   \\[1.5ex]
 \mbox{s.t.} 
 & \dot{y}_1 & = &  -(\theta_1 + \theta_3) y_1^2, \\
 & \dot{y}_2 & = & \theta_1 y_1^2 - \theta_2 y_2.  \\
\end{array}

Parameters

The values  z_j are measurements for the concentration for  y at time points  \tau_1, ..., \tau_{21} and initial conditions are known.

Source Code

Model descriptions are available in