A process systems engineering approach for design of preferential crystallization of enantiomers: from experiments to machine learning through multi-objective optimization

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Details of project

Identifier

138475

Type

Principal investigator

Szilágyi, Botond

Title in Hungarian

Enantiomerek preferenciális kristályosításának tervezése folyamatmérnöki eszközökkel: kísérletektől a gépi tanulásig többcélú optimalizáláson keresztül

Title in English

A process systems engineering approach for design of preferential crystallization of enantiomers: from experiments to machine learning through multi-objective optimization

Keywords in Hungarian

kristályosítás, enantiomer, folyamatirányítás, folyamatmodellezés, optimalizálás, gépi tanulás

Keywords in English

crystallization, enantiomer, process control, process modeling, optimization, machine learning

Discipline

Chemical Engineering (Council of Physical Sciences)	60 %
Ortelius classification: Environmental chemistry
Automation and Computer Science (Council of Physical Sciences)	20 %
Ortelius classification: Automation
Material Science and Technology (chemistry) (Council of Physical Sciences)	20 %

Panel

Chemistry 2

Department or equivalent

Department of Organic Chemistry and Technology (Budapest University of Technology and Economics)

Participants

Fogassy, Elemér
Galata, Dorián
Madarász, Lajos
Mészáros, Lilla Alexandra
Nagy, Brigitta
Pálovics, Emese
Pusztai, Éva

Starting date

2021-12-01

Closing date

2025-11-30

Funding (in million HUF)

39.955