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Application of parametric sensitivity to batch process safety: Theoretical and experimental studies

✍ Scribed by Dipl. Chem. Eng. Miguel A. Alós; Dr. Jose M. Zaldívar; Dipl. Math. Fernanda Strozzi; Dra. Rosa Nomen; Dr. Julià Sempere

Publisher
John Wiley and Sons
Year
1996
Tongue
English
Weight
901 KB
Volume
19
Category
Article
ISSN
0930-7516

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✦ Synopsis

The generalised thermal parametric sensitivity criterion is applied to the thermal behaviour of the esterification of 2-butanol with propionic anhydride in a batch reactor under isoperibolic conditions. The reaction is catalysed by sulphuric acid, and the study covered the effects of both catalyst concentration and, in the absence of catalyst, jacket temperature. The experimental location of regions of parametric sensitivity agreed well with theoretical predictions. However, the process conditions that meet conventional standards for safe process design fall into the supercritical sensitivity region of the parametric model. This apparently contradictory result is discussed. The usefulness of the parametric sensitivity approach is illustrated by practical examples of scale-up and heat transfer in reactions prone to thermal runaway.

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Runaway behaviour and parametric sensiti
Runaway behaviour and parametric sensitivity of a batch reactor — an experimental study
✍ Johan J. Heiszwolf; Jan M.H. Fortuin 📂 Article 📅 1996 🏛 Elsevier Science 🌐 English ⚖ 415 KB

The present paper reports on the behaviour of a pseudo first-order reaction system in a batchwise operated stirred tank reactor. The experimental results refer to runaways, sensitive and stable operations and are compared with two different runaway criteria, i.e. the Semenov criterion and the Adler