\[u(t)\]
\[x(t+\Delta t)\]
\[u(t-\Delta t)\]
\[\dots\]
\[x(t-\Delta t)\]
\[\dots\]
Input
Output
\[x(t)\]
\[u(t)\]
\[x(t+\Delta t)\]
\[x(t)\]
\[\dots\]
Input
Output
\[K_u\]
\[K_x\]
\[u(t)\]
\[x(t)\]
Input
\[K_u\]
\[K_x\]
\[x(t+\Delta t)\]
Output
\[u(t)\]
\[x(t)\]
\[K_u\]
\[K_x\]
\[x(t+\Delta t)\]
\[u_{af}(t)\]
\[u_{sf}(t)\]
\[u_{T}(t)\]
\[x_{H2}(t)\]
\[x_{CO}(t)\]
\[x_{H2}(t + \Delta t)\]
\[x_{CO}(t+\Delta t)\]
\[f(t)\]
\[x(t)\]
\[K_f\]
\[K_x\]
\[x(t+\Delta t)\]
\[f_{T}(t)\]
\[f_{R}(t)\]
\[x_{C}(t)\]
\[x_{F}(t)\]
\[x_{C}(t + \Delta t)\]
\[x_{F}(t+\Delta t)\]
Crop Model
\[u(t)\]
\[K_f\]
\[u_{T}(t)\]
\[u(t)\]
\[x(t)\]
\[K_u\]
\[K_x\]
\[x(t+\Delta t)\]
\[u_{H2}(t)\]
\[u_{T}(t)\]
\[u_{CO}(t)\]
Gases Composition
Electrical Power
Heat
Gases Composition
Electrical Power
Heat
\[u(t)\]
\[x(t)\]
\[K_u\]
\[K_x\]
\[x(t+\Delta t)\]
\[u_{af}(t)\]
\[u_{sf}(t)\]
\[u_{T}(t)\]
\[x_{H2}(t)\]
\[x_{CO}(t)\]
\[x_{H2}(t + \Delta t)\]
\[x_{CO}(t+\Delta t)\]
\[a'(t)\]
\[x(t)\]
\[u(t)\]
\[K_x\]
\[K_u\]
\[x(t+\Delta t)\]
\[u_{af}(t)\]
\[u_{sf}(t)\]
\[u_{T}(t)\]
\[x_{H2}(t)\]
\[x_{CO}(t)\]
\[x_{H2}(t + \Delta t)\]
\[x_{CO}(t+\Delta t)\]
\[a'(t)\]
Catalyst Deactivation Model
\[u(t)\]
\[x(t+\Delta t)\]
\[u_{af}(t)\]
\[u_{sf}(t)\]
\[u_{T}(t)\]
\[x_{H2}(t + \Delta t)\]
\[x_{CO}(t+\Delta t)\]
\[f_Q(t)\]
\[u_1(t)\]
Climate Model
\[f_T(t)\]
\[x_G(t)\]
Water Tank Model
\[u_2(t)\]
NARX diagram
By Deyviss Jesus Oroya
