Genetic programming-based development of thermal runaway criteria
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- @Article{KUMMER:2019:CCE,
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author = "Alex Kummer and Tamas Varga and Janos Abonyi",
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title = "Genetic programming-based development of thermal
runaway criteria",
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journal = "Computer \& Chemical Engineering",
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volume = "131",
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pages = "106582",
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year = "2019",
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ISSN = "0098-1354",
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DOI = "doi:10.1016/j.compchemeng.2019.106582",
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URL = "http://www.sciencedirect.com/science/article/pii/S0098135419306428",
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keywords = "genetic algorithms, genetic programming, Process
safety, Safety criteria, Criterion identification,
Early warning, Equation discovery",
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abstract = "Common thermal runaway criteria (e.g., divergence
criterion and the Maxi criterion) may predict a thermal
runaway unreasonably as the Maximum Allowable
Temperature (MAT) is not taken into account. This
contribution proposes a method for the goal-oriented
construction of reactor runaway criteria by Genetic
Programming (GP). The runaway prediction problem is
formulated as a critical equation-based classification
task, and GP is used to identify the optimal structure
of the equations that also take into account the MAT.
To demonstrate the applicability of the method,
tailored criteria were developed for batch and
continuous stirred-tank reactors. The resultant
critical equations outperform the well-known criteria
in terms of the early and accurate indication of
thermal runaways",
- }
Genetic Programming entries for
Alex Kummer
Tamas Varga
Janos Abonyi
Citations