% % This file was created by the TYPO3 extension % bib % --- Timezone: CET % Creation date: 2021-02-12 % Creation time: 13-53-19 % --- Number of references % 5 % @Article { Beinert2015, title = {Analysis and modelling of bead contacts in wet-operating stirred media and planetary ball mills with CFD--DEM simulations}, journal = {Chemical Engineering Science}, year = {2015}, volume = {134}, pages = {648--662}, tags = {A6}, publisher = {Elsevier}, author = {Beinert, S and Fragnière, G and Schilde, C and Kwade, A} } @Article { Beinert2014, title = {CFD-Discrete Element Method Simulations Combined with Compression Experiments to Characterize Stirred Media Mills}, journal = {Chemical Engineering & Technology}, year = {2014}, volume = {37}, pages = {770-778}, author = {Beinert, S. and Schilde, C. and Gronau, G. and Kwade, A.} } @Misc { Fragniere2015, title = {Breakage rates of a model system in wet stirred media mills compared to stressing energy distributions of DEM-CFD simulations}, year = {2015}, note = {oral presentation}, tags = {A6}, howpublished = {European Symposium on Comminution and Classification, Göteborg, Schweden}, author = {Fragnière, Greta and Overbeck, A and Beinert, Stefan and Schilde, Cartsen and Kwade, Arno} } @Misc { Gronau2014, title = {Predicting breakage rates of fine particles in stirred media mills depending on stressing energy and frequency}, year = {2014}, howpublished = {Comminution}, event_place = {Kapstadt, Südafrika}, event_name = {Comminution}, event_date = {07.-14. April 2014}, author = {Gronau, G. and Beinert, S. and Schilde, C. and Kwade, A.} } @Misc { Schilde2013, title = {Combination of single particle compression experiments and DEM for the characterization of stirred media mills}, year = {2013}, howpublished = {13th European Symposium on Comminution & Classification, Braunschweig}, event_place = {Braunschweig}, event_name = {13th European Symposium on Comminution & Classification}, event_date = {13th European Symposium on Comminution & Classification}, author = {Schilde, C. and Beinert, S. and Gronau, G. and Kwade, A.} }