PartagerSimuler pour démontrer : comparaison de différents concepts de régulation d’une pompe à chaleur rotative d’échelle industrielle.
Simulation towards demonstration: A comparison of different control concepts of an industrial-scale rotation heat pump.
Numéro : 0793
Auteurs : LAUERMANN M., KLING S., WINDHOLZ B., SPORR A., LÄNGAUER A., KALTENBAEK G., ADLER B.
Résumé
Rotation Heat Pumps (RHP) offer the advantage of a flexible process in terms of temperature with an environmentally friendly, non-flammable working fluid. The application has already proven successful in the operation of a reference plant and prototypes. A RHP uses a Joule cycle in contrast to compression heat pumps using a vapor compression cycle. Due to the rotation of a rotor filled with the working fluid, the temperature of the fluid rises outwards as the working fluid is compressed. Basic elements are the heat exchangers, the compression and expansion pipes, and a fan to circulate the working fluid. Due to the rotation, these components differ in their operating behavior according to available literature data. Regarding control, numerous publications and theoretical principles and commercial controllers are available for compression heat pumps. The current state of the art for an RHP is a fixed/rigid presetting of the parameters to achieve a certain operating state. This results in a simple but non-optimal control, e.g. regarding energy efficiency. In this work, different control concepts based on the fundamentals of a DigitalTwin have been developed and compared to each other (e.g. extremum-seeking control and model predictive control). The proof-of-concept is first performed on the machine controller (PLC) by means of controller-in-the-loop tests. Subsequently, the control concepts are implemented and verified on a real industrial scale RHP.
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Pages : 13 p.
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Détails
- Titre original : Simulation towards demonstration: A comparison of different control concepts of an industrial-scale rotation heat pump.
- Identifiant de la fiche : 30033503
- Langues : Anglais
- Sujet : Technologie
- Source : 14th IEA Heat Pump Conference 2023, Chicago, Illinois.
- Date d'édition : 05/2023
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