% 
% This file was created by the TYPO3 extension
% bib
% --- Timezone: CET
% Creation date: 2021-02-12
% Creation time: 13-07-34
% --- Number of references
% 13
% 

@Article { Wilbrandt2016,
   title = {Par{M}ooN -- a modernized program package based on mapped finite elements},
   journal = {Computers & Mathematics with Applications},
   year = {2017},
   author = {Wilbrandt, U. and Bartsch, C. and Ahmed, N. and Alia, N. and Anker, F. and Blank, L. and Caiazzo, A. and Ganesan, S. and Giere, S. and Matthies, G. and Meesala, R. and Shamin, A. and Venkatesan, J. and John, V.}
}

@Article { Meyer2017,
   title = {Determination of particle exchange rates at over-flow weirs in horizontal fluidised beds by particle tracking velocimetry},
   journal = {Particuology},
   year = {2017},
   tags = {A3},
   DOI = {10.1016/j.partic.2016.09.007},
   author = {Meyer, K and Bück, A and Tsotsas, E.}
}

@Article { Bueck2016,
   title = {Influence of operation parameters on process stability in continuous fluidised bed layering with external product classification},
   journal = {Powder Technology},
   year = {2016},
   volume = {300},
   pages = {37 - 45},
   abstract = {Abstract Several studies—theoretical and experimental—show that continuous fluidised bed layering granulation with external classification can show instability in the form of self-sustained oscillations. Recent results show that the process stability does not only depend on product-related process parameters but also on the formation of functional zones in the fluidised bed chamber, especially the formation of a spray and drying zone. In this work a systematic evaluation of zone formation in different apparatus designs (e.g., top- and bottom-spray in cylindrical apparatuses) and its influence on process stability is performed, resulting in a stability regime map for the different apparatus designs and key operation parameters.},
   note = {7th International Granulation Workshop 2015: Granulation across the length scales},
   keywords = {Layering, Fluidised bed, Process stability, External classification, Bifurcation analysis},
   tags = {A3},
   web_url = {//www.sciencedirect.com/science/article/pii/S0032591016301127},
   ISSN = {0032-5910},
   DOI = {http://dx.doi.org/10.1016/j.powtec.2016.03.019},
   author = {Bück, A. and Neugebauer, C. and Meyer, K. and Palis, S. and Diez, E. and Kienle, A. and Heinrich, S. and Tsotsas, E.}
}

@Article { Feinauer2015,
   title = {{Structural characterization of particle systems using spherical harmonics}},
   journal = {Materials Characterization},
   year = {2015},
   volume = {106},
   pages = {123--133},
   web_url = {http://dx.doi.org/10.1016/j.matchar.2015.05.023},
   DOI = {10.1016/j.matchar.2015.05.023},
   author = {Feinauer, J. and Spettl, A. and Manke, I. and Strege, S. and Kwade, A. and Pott, A. and Schmidt, V.}
}

@Article { Reinhold2015,
   title = {Modeling and measurement of abraded particles},
   journal = {Powder Technology},
   year = {2015},
   volume = {271},
   pages = {134 - 140},
   keywords = {Particle shape model},
   tags = {C1},
   web_url = {http://www.sciencedirect.com/science/article/pii/S0032591014008900},
   ISSN = {0032-5910},
   DOI = {http://dx.doi.org/10.1016/j.powtec.2014.10.040},
   author = {Reinhold, Alexander and Schorsch, Stefan and Mazzotti, Marco and Briesen, Heiko}
}

@Article { Meyer2015,
   title = {Dynamic Multi-Zone Population Balance Model of Particle Formulation in Fluidized Beds},
   journal = {Procedia Engineering},
   year = {2015},
   volume = {102},
   pages = {1456 - 1465},
   abstract = {Abstract In this work a generic multi-compartment, multi-zone population balance model (PBM) is developed which allows predicting the process dynamics of particle formation in a horizontal fluidized bed. It focuses on the particle size distribution (PSD) which is an important quality parameter in solids process industry. It is influenced by different factors, e.g. apparatus design (weir and nozzle assembly) and process conditions (mass flow rate), respectively. In this study the apparatus design by an over and under flow weir configuration, used separately or in combination, is investigated to obtain the product properties at the outlet of the apparatus. Simulation results show how characteristic product data depend on the process conditions and apparatus design. The obtained trends can then be used for an inverse apparatus design of horizontal fluidized beds to obtain particles with desired properties.},
   note = {New Paradigm of Particle Science and Technology Proceedings of The 7th World Congress on Particle Technology},
   keywords = {horizontal fluidized bed, spray granulation, population balance modeling, particle size distribution.},
   tags = {A3},
   web_url = {//www.sciencedirect.com/science/article/pii/S1877705815002982},
   ISSN = {1877-7058},
   DOI = {http://dx.doi.org/10.1016/j.proeng.2015.01.279},
   author = {Meyer, Katja and Bück, Andreas and Tsotsas, Evangelos}
}

@Article { Metzger2014,
   title = {On the transient flow characteristics in Confined Impinging Jet Mixers - CFD simulation and experimental validation},
   journal = {Chemical Engineering Science},
   year = {2014},
   DOI = {10.1016/j.ces.2014.12.056},
   author = {Metzger, Lukas and Kind, Matthias}
}

@Inproceedings { Meyer2016a,
   title = {Multi-compartment model for study of thermal effects during granulation in a continuously operated horizontal fluidized bed},
   year = {2016},
   tags = {A3},
   series = {Gifu (JP)},
   booktitle = {Proceedings of International Drying Symposium (IDS 2016)},
   author = {Meyer, K and Bück, A and Tsotsas, E}
}

@Inproceedings { Meyer2014,
   title = {Multi-zone model for layering granulation in horizontal fluidized beds},
   year = {2014},
   tags = {A3},
   editor = {J. Andrieu und P. Perré},
   booktitle = {Proc. 19th International Drying Symposium (IDS 2014)},
   author = {Meyer, K and Bück, A and Tsotsas, E}
}

@Inproceedings { Metzger2014a,
   title = {Supersaturation buildup in Confined Impinging Jet Mixers - A multi-scale coupling of CFD and population balance},
   year = {2014},
   booktitle = {Proc. 19th International Symposium on Industrial Crystallization},
   event_place = {Toulouse, France},
   event_name = {ISIC 19},
   event_date = {16.9 - 19.09. 2014},
   author = {Metzger, Lukas and Kind, Matthias}
}

@Inproceedings { Metzger2014b,
   title = {Compartment Method for Dynamic Multi-Scale Simulation of Precipitation Reactors},
   year = {2014},
   volume = {1A, Applications in CFD},
   pages = {pp. V01AT03A013},
   booktitle = {Proc. 4th Joint US-European Fluids Engineering Division Summer Meeting},
   event_place = {Chicago, Illinois},
   event_name = {4th Joint US-European Fluids Engineering Division Summer Meeting},
   event_date = {03.8 - 07.08. 2014},
   DOI = {10.1115/FEDSM2014-21547},
   author = {Metzger, Lukas and Kind, Matthias}
}

@Misc { Segets2014a,
   title = {Processing concepts for small nanoparticles: classification on a nanometer scale by tailoring particle interactions},
   year = {2014},
   howpublished = {ProcessNet-Jahrestagung},
   event_place = {Aachen},
   event_name = {ProcessNet-Jahrestagung},
   author = {Segets, D. and Yamamoto, K. and Lutz, C. and Mori, Y. and Peukert, W.}
}

@Misc { Metzger2014c,
   title = {Vernetzte Methoden zur dynamischen Simulation von Fällungsreaktoren},
   year = {2014},
   howpublished = {ProcessNet-Jahrestreffen der Fachgruppe Kristallisation, Münster},
   event_place = {Münster},
   event_name = {ProcessNet-Jahrestreffen der Fachgruppe Kristallisation},
   event_date = {27.3 - 28.3. 2014},
   author = {Metzger, Lukas and Kind, m}
}