Evolution of concepts and models for quantifying resiliency and flexibility of chemical processes
Identifieur interne : 004422 ( PascalFrancis/Curation ); précédent : 004421; suivant : 004423Evolution of concepts and models for quantifying resiliency and flexibility of chemical processes
Auteurs : Ignacio E. Grossmann [États-Unis] ; Bruno A. Calfa [États-Unis] ; Pablo Garcia-Herreros [États-Unis]Source :
- Computers & chemical engineering [ 0098-1354 ] ; 2014.
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- Pascal (Inist)
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Abstract
This paper provides a historical perspective and an overview of the pioneering work that Manfred Morari developed in the area of resiliency for chemical processes. Motivated by unique counter-intuitive examples, we present a review of the early mathematical formulations and solution methods developed by Grossmann and co-workers for quantifying Static Resiliency (Flexibility). We also give a brief overview of some of the seminal ideas by Manfred Morari and co-workers in the area of Dynamic Resiliency. Finally, we provide a review of some of the recent developments that have taken place since that early work.
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<front><div type="abstract" xml:lang="en">This paper provides a historical perspective and an overview of the pioneering work that Manfred Morari developed in the area of resiliency for chemical processes. Motivated by unique counter-intuitive examples, we present a review of the early mathematical formulations and solution methods developed by Grossmann and co-workers for quantifying Static Resiliency (Flexibility). We also give a brief overview of some of the seminal ideas by Manfred Morari and co-workers in the area of Dynamic Resiliency. Finally, we provide a review of some of the recent developments that have taken place since that early work.</div>
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