Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles

School of Engineering

Research output: Book/Report/Proceedings › Proceedings

Published

Standard

Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles. / Capozzi, Luigi; Boccardo, Gianluca; Barresi, Antonello A. et al.
5th European Drying Conference ed. Gödöllő, Hungary: Szent István University, 2015. 9 p.

Research output: Book/Report/Proceedings › Proceedings

Harvard

Capozzi, L, Boccardo, G, Barresi, AA & Pisano, R 2015, Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles. 5th European Drying Conference edn, Szent István University, Gödöllő, Hungary.

APA

Capozzi, L., Boccardo, G., Barresi, A. A., & Pisano, R. (2015). Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles. (5th European Drying Conference ed.) Szent István University.

Vancouver

Capozzi L, Boccardo G, Barresi AA, Pisano R. Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles. 5th European Drying Conference ed. Gödöllő, Hungary: Szent István University, 2015. 9 p.

Author

Capozzi, Luigi ; Boccardo, Gianluca ; Barresi, Antonello A. et al. / Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles. 5th European Drying Conference ed. Gödöllő, Hungary : Szent István University, 2015. 9 p.

Bibtex

@book{f7e6df038ee54cb3acf2eefce09dab42,

title = "Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles",

abstract = "A multi-scale modelling approach is proposed to better understand the behaviour of the freeze-drying of packed-bed of uniform and non-uniform particles. In particular, realistic geometric packing arrangements have been generated by using a bullet physics engine, while CFD simulation at the pore-scale has been used in order to obtain realistic values for the packed-bed; the results have then been used in a two-dimensional model describing heat and mass transfer in the freeze-drying of the packed-bed made of frozen particles.",

author = "Luigi Capozzi and Gianluca Boccardo and Barresi, {Antonello A.} and Roberto Pisano",

year = "2015",

month = dec,

day = "31",

language = "English",

publisher = "Szent Istv{\'a}n University",

edition = "5th European Drying Conference",

}

RIS

TY - BOOK

T1 - Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles

AU - Capozzi, Luigi

AU - Boccardo, Gianluca

AU - Barresi, Antonello A.

AU - Pisano, Roberto

PY - 2015/12/31

Y1 - 2015/12/31

N2 - A multi-scale modelling approach is proposed to better understand the behaviour of the freeze-drying of packed-bed of uniform and non-uniform particles. In particular, realistic geometric packing arrangements have been generated by using a bullet physics engine, while CFD simulation at the pore-scale has been used in order to obtain realistic values for the packed-bed; the results have then been used in a two-dimensional model describing heat and mass transfer in the freeze-drying of the packed-bed made of frozen particles.

AB - A multi-scale modelling approach is proposed to better understand the behaviour of the freeze-drying of packed-bed of uniform and non-uniform particles. In particular, realistic geometric packing arrangements have been generated by using a bullet physics engine, while CFD simulation at the pore-scale has been used in order to obtain realistic values for the packed-bed; the results have then been used in a two-dimensional model describing heat and mass transfer in the freeze-drying of the packed-bed made of frozen particles.

M3 - Proceedings

BT - Coupled bullet physics and computational fluid dynamics as a tool for modeling the freeze-drying of microparticles

PB - Szent István University

CY - Gödöllő, Hungary

ER -

Research