화학공학소재연구정보센터
Canadian Journal of Chemical Engineering, Vol.86, No.2, 249-259, 2008
Energy-efficient complex distillation sequences: Control properties
Four thermally coupled distillation systems were designed for the separation of five-component mixtures (the light-ends separation section of a crude distillation plant); their steady-state design was obtained by starting from a conventional distillation sequence and then optimizing for minimum energy consumption. The thermally coupled distillation systems were compared to sequence based on conventional columns design. Comparison was based on controllability properties under open and closed loop operation, following the dynamic behaviour after common industrial operating disturbances. Simulation results were analyzed by the singular value decomposition technique and with the performance examination of elimination of feed disturbances using PI controllers. It was found that thermally coupled distillation systems are controllable and, sometimes, they exhibit dynamic responses that are easier to manage than in the case of conventional distillation sequences; this result is innovative in the study of this kind of systems.