Include dependency graph for plug_flow_reactor2_nbi.cpp:
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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
- 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_nbi.cpp.
Macro Definition Documentation
◆ Beta
| #define Beta 0.2 |
◆ Cin
| #define Cin 0.02 |
◆ Delta
| #define Delta 0.25 |
◆ E
| #define E 11250.0 |
◆ k0
| #define k0 1E+06 |
◆ K3
| #define K3 30.0 |
◆ L
| #define L 1.0 |
◆ R
| #define R 1.986 |
◆ Tin
| #define Tin 340.0 |
◆ v
| #define v 0.1 |
Function Documentation
◆ main()
| int main | ( | void | ) |
Definition at line 48 of file plug_flow_reactor2_nbi.cpp.