Multivariable Control of a Fluidized Catalytic Cracking Process under Full and Partial Combustion Modes

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概要

• 論文の詳細を見る

• The performance of a dynamic matrix control (DMC) algorithm was investigated for the control of a fluidized catalytic cracking (FCC) process operated under full and partial combustion modes. Several types of hierarchical control systems consisting of a supervisory controller and a basic regulatory controller were designed according to the control purpose and the combustion mode. Then, the designed control systems were applied for supervisory unconstrained and constrained control of the FCC process. The dynamic matrix controllers for the unconstrained control showed better performance than PI-controllers for tracking set-points and for rejecting disturbances under both the combustion modes. The supervisory constrained control using the dynamic matrix controllers also showed good performance.

• 社団法人 化学工学会の論文
• 2002-09-01

著者

• Han In-su

  Department Of Chemical Engineering Texas Tech University

• RIGGS James

  Department of Chemical Engineering, Texas Tech University

• CHUNG Chang-Bock

  Faculty of Applied Chemistry, Chonnam National University

• Riggs James

  Department Of Chemical Engineering Texas Tech University

• Chung Chang-bock

  Faculty Of Applied Chemistry Chonnam National University

関連論文

• Iterative Error-based Nonlinear PLS Method for Nonlinear Chemical Process Modeling
• Multivariable Control of a Fluidized Catalytic Cracking Process under Full and Partial Combustion Modes

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