Macros | Functions
plug_flow_reactor2_nnc.cpp File Reference
#include "acado_optimal_control.hpp"
#include <acado_gnuplot.hpp>
Include dependency graph for plug_flow_reactor2_nnc.cpp:

Go to the source code of this file.

Macros

#define Beta   0.2
 
#define Cin   0.02
 
#define Delta   0.25
 
#define E   11250.0
 
#define k0   1E+06
 
#define K3   30.0
 
#define L   1.0
 
#define R   1.986
 
#define Tin   340.0
 
#define v   0.1
 

Functions

int main ()
 

Detailed Description

Author
Filip Logist, Boris Houska, Hans Joachim Ferreau
Date
2009

\ Normalized normal constraint for jacketed plug flow reactor with conflicting conversion and energy cost \ J1 = Cin*(1.0-x1) Conversion cost \ J2 = 1.0/K3 * int_0^L(Beta/L*(u-x2))dz Energy cost

Reference: F. Logist, P.M.M. Van Erdeghem, I.Y. Smets, and J.F. Van Impe 2009. Optimal design of dispersive tubular reactors at steady-state using optimal control theory Journal of Process Control, 19, 1191-1198.

Definition in file plug_flow_reactor2_nnc.cpp.

Macro Definition Documentation

#define Beta   0.2
#define Cin   0.02
#define Delta   0.25
#define E   11250.0
#define k0   1E+06
#define K3   30.0
#define L   1.0
#define R   1.986
#define Tin   340.0
#define v   0.1

Function Documentation

int main ( void  )

Definition at line 48 of file plug_flow_reactor2_nnc.cpp.



acado
Author(s): Milan Vukov, Rien Quirynen
autogenerated on Mon Jun 10 2019 12:35:20