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Drying Technology
An International Journal
Volume 17, 1999 - Issue 7-8
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Original Articles

PREDICTING APPARENT SHERWOOD NUMBERS FOR FLUIDIZED BEDS

H. Groenewold Thermal Process Engineering, Otto-von-Guericke-University, P.O. Box 4120, Magdeburg, D-39104, Germany
&
E. Tsotsas Thermal Process Engineering, Otto-von-Guericke-University, P.O. Box 4120, Magdeburg, D-39104, Germany
Pages 1557-1570 | Published online: 27 Apr 2007

Citations (22)

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Emmanuela Gavi. (2020) Application of a mechanistic model of batch fluidized bed drying at laboratory and pilot scale. Drying Technology 38:8, pages 1062-1078.
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Z. Li, J. Kessel, G. Grünewald & M. Kind. (2012) CFD Simulation on Drying and Dust Integration in Fluidized Bed Spray Granulation. Drying Technology 30:10, pages 1088-1098.
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T. Hoffmann, A. Hailu Bedane, M. Peglow, E. Tsotsas & M. Jacob. (2011) Particle–Gas Mass Transfer in a Spouted Bed with Adjustable Air Inlet. Drying Technology 29:3, pages 257-265.
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M. Peglow, J. Kumar, R. Hampel, E. Tsotsas & S. Heinrich. (2007) Towards a Complete Population Balance Model for Fluidized-Bed Spray Agglomeration. Drying Technology 25:7-8, pages 1321-1329.
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Articles from other publishers (18)

Hanqiao Che, Haigang Wang, Lijun Xu & Duan Li. (2023) Novel CFD-DEM Model for Spouted Bed Drying Incorporating Intraparticle Heat and Mass Diffusion. Industrial & Engineering Chemistry Research 62:42, pages 17125-17134.
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Alireza Rahbari, Armando Fontalvo & John Pye. (2023) Solar-thermal beneficiation of iron ore: System-level dynamic simulation and techno-economic optimisation. Applied Thermal Engineering 223, pages 119794.
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H.Q. Che, H.G. Wang, L.J. Xu & R.H. Ge. (2022) Investigation of gas-solid heat and mass transfer in a Wurster coater using a scaled CFD-DEM model. Powder Technology 406, pages 117598.
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Soeren E. Lehmann, Moritz Buchholz, Alfred Jongsma, Fredrik Innings & Stefan Heinrich. (2020) Modeling and Flowsheet Simulation of Vibrated Fluidized Bed Dryers. Processes 9:1, pages 52.
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Christian Rieck, Andreas Bück & Evangelos Tsotsas. (2020) Estimation of the dominant size enlargement mechanism in spray fluidized bed processes. AIChE Journal 66:5.
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Ibrahim Alaathar, Stefan Heinrich & Ernst-Ulrich Hartge. 2020. Continuous Pharmaceutical Processing. Continuous Pharmaceutical Processing 301 359 .
Sayali Zarekar, Andreas Bück, Michael Jacob & Evangelos Tsotsas. (2019) Numerical study of the hydrodynamics of fluidized beds operated under sub-atmospheric pressure. Chemical Engineering Journal 372, pages 1134-1153.
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Evangelos Tsotsas. 2019. VDI-Wärmeatlas. VDI-Wärmeatlas 1719 1730 .
Evangelos Tsotsas. 2017. Handbuch Vakuumtechnik. Handbuch Vakuumtechnik 1 12 .
Kaicheng Chen, Philipp Bachmann, Andreas Bück, Michael Jacob & Evangelos Tsotsas. (2017) Experimental study and modeling of particle drying in a continuously-operated horizontal fluidized bed. Particuology 34, pages 134-146.
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L. Mielke, T. Hoffmann, M. Henneberg, M. Peglow, A. Bück & E. Tsotsas. (2016) Reduction of energy consumption in batch fluidized bed layering granulation processes by temporal separation. Chemical Engineering Research and Design 110, pages 2-11.
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C. Rieck, T. Hoffmann, A. Bück, M. Peglow & E. Tsotsas. (2015) Influence of drying conditions on layer porosity in fluidized bed spray granulation. Powder Technology 272, pages 120-131.
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Evangelos Tsotsas, Stefan Heinrich, Michael Jacob, Mirko Peglow & Lothar Mörl. 2014. Modern Drying Technology. Modern Drying Technology 85 130 .
Evangelos Tsotsas, Stefan Heinrich, Michael Jacob, Mirko Peglow & Lothar Mörl. 2014. Modern Drying Technology. Modern Drying Technology 85 130 .
Vikranth Kumar Surasani, Franka Kretschmer, Patric Heidecke, Mirko Peglow & Evangelos Tsotsas. (2011) Biomass Combustion in a Fluidized-Bed System: An Integrated Model for Dynamic Plant Simulations. Industrial & Engineering Chemistry Research 50:17, pages 9936-9943.
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H. Groenewold & E. Tsotsas. (2007) Drying in fluidized beds with immersed heating elements. Chemical Engineering Science 62:1-2, pages 481-502.
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J. Burgschweiger & E. Tsotsas. (2002) Experimental investigation and modelling of continuous fluidized bed drying under steady-state and dynamic conditions. Chemical Engineering Science 57:24, pages 5021-5038.
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Stefan Heinrich & Lothar Mörl. (1999) Fluidized bed spray granulation—A new model for the description of particle wetting and of temperature and concentration distribution. Chemical Engineering and Processing: Process Intensification 38:4-6, pages 635-663.
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