Computational-Based Framework for Optimizing Dynamic Processes with Plant-Model Mismatch

Authors

  • I. M. Mujtaba Department of Chemical Engineering, University of Bradford
  • M. A. Hussain Faculty of Engineering. University of Malaya

Keywords:

Optimization, Computational framework, Dynamic process and Model mismatch

Abstract

A general computational sequence in optimizing the operation of a dynamic process is firstly highlighted in this paper. However, in most cases these dynamic processes include process-model mismatch, which shifts the optimal operation of the process. To overcome this, a model-mismatch estimator such as the neural network technique has been implemented in the optimization strategy. A modified general computational framework to incorporate these mismatches is developed for this purpose. The framework also allows the use of discrete process data in a continuous model to predict discrete and/or continuous mismatch profiles. The strategy is applied on a batch distillation system and the optimal operation using model mismatches is found to be comparable to that using the actual process model.

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Published

2000-06-01

Issue

Vol. 13 No. 1 (2000): Malaysian Journal of Computer Science

Section

Articles

How to Cite

Computational-Based Framework for Optimizing Dynamic Processes with Plant-Model Mismatch. (2000). Malaysian Journal of Computer Science, 13(1), 27-33. https://jupidi.um.edu.my/index.php/MJCS/article/view/5817

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