TY - JOUR
T1 - Modeling and control of a temperature-based high-purity distillation column
AU - Chien, I. Lung
AU - Ogunnaike, Babatunde A.
PY - 1997
Y1 - 1997
N2 - Industrial distillation columns typically lack adequate on-line instrumentation required for implementing high performance, model-based control systems which depend on composition measurements. The typical practice is to base product quality control schemes instead on tray temperature measurements since these are usually available on-line. While this strategy has been applied with success on a wide variety of distillation columns, some special considerations may be necessary in dealing with high-purity columns. This paper presents results which address some of the key issues involved with the use of tray temperature measurements as surrogates for composition measurements, and with the development of appropriate input/output models for multivariable control of high-purity columns. For the purpose of illustration, we investigate the performance of several model predictive control schemes based on a linear model, a "high frequency" model, and a nonlinear temperature transformation, along with that of conventional multiloop PID control. Closed-loop control performances are compared for setpoint changes as well as for changes in unmeasurable load disturbances.
AB - Industrial distillation columns typically lack adequate on-line instrumentation required for implementing high performance, model-based control systems which depend on composition measurements. The typical practice is to base product quality control schemes instead on tray temperature measurements since these are usually available on-line. While this strategy has been applied with success on a wide variety of distillation columns, some special considerations may be necessary in dealing with high-purity columns. This paper presents results which address some of the key issues involved with the use of tray temperature measurements as surrogates for composition measurements, and with the development of appropriate input/output models for multivariable control of high-purity columns. For the purpose of illustration, we investigate the performance of several model predictive control schemes based on a linear model, a "high frequency" model, and a nonlinear temperature transformation, along with that of conventional multiloop PID control. Closed-loop control performances are compared for setpoint changes as well as for changes in unmeasurable load disturbances.
KW - Column dual temperature control
KW - Distillation control
KW - Model predictive control
UR - http://www.scopus.com/inward/record.url?scp=0030792378&partnerID=8YFLogxK
U2 - 10.1080/00986449708936583
DO - 10.1080/00986449708936583
M3 - 文章
AN - SCOPUS:0030792378
SN - 0098-6445
VL - 158
SP - 71
EP - 105
JO - Chemical Engineering Communications
JF - Chemical Engineering Communications
ER -