Abstract
Thermal coupling of heat and mass leads to complex configurations and difficult control
problems. We study here the dynamic behavior of a high purity, 4-product extended
Petlyuk column with nominal operating point close to the analytic minimum energy for
sharp seperation and propose and four different decentralized control structures. We
subject the different control structures to wide range of disturbances and propose robust
control structures that can handle them while remaining close to the minimum energy
for the given purity specification. Another aspect of this work is the use of V-min
diagrams which can predict a worst case disturbance and can reason out the failure of a
particular control structure. The general control structures shown here can be extended
to other prefractionator arrangements as well like Kaibel column.
problems. We study here the dynamic behavior of a high purity, 4-product extended
Petlyuk column with nominal operating point close to the analytic minimum energy for
sharp seperation and propose and four different decentralized control structures. We
subject the different control structures to wide range of disturbances and propose robust
control structures that can handle them while remaining close to the minimum energy
for the given purity specification. Another aspect of this work is the use of V-min
diagrams which can predict a worst case disturbance and can reason out the failure of a
particular control structure. The general control structures shown here can be extended
to other prefractionator arrangements as well like Kaibel column.