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Dynamics and long-time behavior of gas–solid flows on recurrent-transient backgrounds
Publikationstyp
Journal Article
Date Issued
2019-05-15
Sprache
English
TORE-URI
Journal
Volume
364
Start Page
562
End Page
577
Citation
Chemical Engineering Journal (364): 562-577 (2019-05-15)
Publisher DOI
Scopus ID
Gas–solid fluidized beds exhibit characteristic, reappearing patterns. External parameter variations or coupling between internal processes superpose a transient behavior on top of these recurrences. We demonstrate how recurrence CFD (rCFD) can cope with such scenarios by interpolating between multiple, pre-generated databases corresponding to short (2.5 s) time series in different flow regimes. The methodology is applied to a fluidized bed of approximately 80 000 solid particles subject to internal heat production and fluidization with cool gas for a duration of 800 s. The fluid's thermal expansion due to heat transfer ([290 K; 430 K]) and the varying inlet velocities ([0.4 m/s; 0.9 m/s]) cause the desired transiency. We find excellent agreement for particle mean temperatures over time and qualitative similarity for their standard deviation between detailed, established simulation techniques and rCFD with speed-ups of more than two orders of magnitude. Furthermore, we present implementation advancements concerning parallel data exchange and compare all-to-all with one-to-one communication schemes. Analysis of the code's performance points the way for future optimization measures.
DDC Class
540: Chemistry