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先进控制技术在常减压装置上的开发与应用 被引量:1

Development and Application of Advanced Process Control Technology in Atmospheric and Vacuum Distillation Unit
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摘要 基于模型的多变量控制技术能够很好解决常减压装置中原料性质变化及相关参数耦合严重的问题,该先进控制系统选用Shell的SMOCpro和RQEpro软件包设计开发了五个子控制器,包括初馏塔、常压炉、减压炉、常压塔、减压塔等关键装置及流程。因为多变量控制器设计中考虑了很多变量的关联性,同时利用预测控制及软测量技术预测出约束到达的时间来提前调节相关参数,可以预先克服变量的扰动,并通过提高平稳率及卡边操作从而获得最大的经济效益。 Model based multivariable control technology is an excellent solution for some control problems of chemical processes,such as the changeable feed property and serious coupling parameters in atmospheric and vacuum distillation unit(CDUVDU).Five sub-controllers which include primary distillation column,atmospheric and vacuum distillation columns,atmospheric and vacuum furnaces has been designed and developed in this APC system by using SMOCpro and RQEpro package of shell.This design of multivariable controller covered most correlativity among variables.Disturbances can be overcome in advance by tuning some correlation parameters based on predictive control and soft sensor technologies.Moreover,maximum benefit can be gotten with improving operation steady rate and implementing boundary control.
作者 何仁初 赵立华
机构地区 上海大学机电工程与自动化学院 大庆石化公司腈纶厂
出处 《自动化技术与应用》 2011年第5期12-16,25,共6页 Techniques of Automation and Applications
关键词 常减压装置 先进控制 软测量 多变量 预测控制 CDU&VDU APC soft sensor multivariable predictive control
分类号 TP273.3 [自动化与计算机技术—检测技术与自动化装置]
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  • 1俞金寿.复杂工业过程中的先进控制系统[J].炼油化工自动化,1994(2):46-52. 被引量:8
  • 2Gonzalez,G.D.Soft sensors for processing plants[C].Intelligent Processing and Manufacturing of Materials,1999.IPMM'99.proceedings of the Second International Conference on,1999(1):59-69.
  • 3STANDART G L,Studies on distillation Ⅴ Generalized definition of a theoretical plate or stage of contacting equipment[J].Chem Eng Sci,1965,20(4):611-621.
  • 4KRISHNAMURTHY R,TAYLOR R.A nonequilibrium stage model of multicomponent separation processes Part Ⅰ Model description and method of solution[J].AIChE,1985,31(3):449-465.
  • 5KRISHNAMURTHY R,TAYLOR R.A nonequilibrium stage model of multicomponent separation processes Part Ⅱ Comparison with experiment[J].AIChE,1985,31(3):456-465.
  • 6KRISHNAMURTHY R,TAYLOR R.A nonequilibrium stage model of multicomponent separation processes Part Ⅲ The influence of unequal component efficiencies in process design problem[J].AIChE,1985,31(12):1973-1985.
  • 7HENDRIK A,KOOIJMAN,TAYLOR R.A nonequili-brium model for dynamic simulation of tray distillation columns[J].AIChE,1995,41(8):1852-1863.
  • 8LEE J H,DUDUKOVIC M P.A comparison of equilibrium and nonequilibrium models for a multicomponent reactive distillation column[J].Computers & Chemical Engineering,1998,23(1):159-172.
  • 9BENALLOU A,SEBORG D E,MELLICHAMP D A.Dynamic compartmental models for separation processes[J].AIChE,1986,32(7):1067-1078.
  • 10HORTON R R,BEQUETTE B W,EDGAR T F.Improvements in dynamic compartmental modeling for distillation[J].Computers & Chemical Engineering,1991,15(3):197-201.

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自动化技术与应用
2011年 第5期

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