STEADY-STATE OPERATION ANALYSIS OF AN IDEAL HEAT INTEGRATED DISTILLATION COLUMN

被引:0
|
作者
黄克谨
钱积新
战德志
中岩勝
高松武一郎
机构
[1] Zhejiang University
[2] Qingdao Institute of Chemical Engineering
[3] Tsukuba 305
[4] Department of Chemical Systems
[5] National Institute of Materials and Chemical Research
[6] Institute of Industrial Process Control
[7] Kansai University Hangzhou 310027
[8] Suita 564
[9] Institute of Industrial Technology
[10] Department of Chemical Process Automation
[11] Qingdao 266042
[12] China
[13] Japan
来源
Chinese Journal of Chemical Engineering | 1997年 / 04期
关键词
Distillation; model identification; steady-state design; operation resilience; process control;
D O I
暂无
中图分类号
TQ026 [物相变化的操作过程];
学科分类号
081701 ; 081704 ;
摘要
A systematic approach for the steady-state operation analysis of chemical processes is pro-posed.The method affords the possibility of taking operation resilience into consideration during thestage of process design.It may serve the designer as an efficient means for the initial screening ofalternative design schemes.An ideal heat integrated distillation column(HIDiC),without any reboileror condenser attached,is studied throughout this work.It has been found that among the various va-riables concerned with the ideal HIDiC,feed thermal condition appears to be the only factor exertingsignificant influences on the interaction between the top and the bottom control loops.Maximuminteraction is expected when the feed thermal condition approaches 0.5.Total number of stages andheat transfer rate are essential to the system ability of disturbance rejection.Therefore,more stagesand higher heat transfer rate ought to be preferred.But,too many stages and higher heat transfer ratemay increase the load of the compres
引用
收藏
页码:43 / 54
页数:12
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