Partitioned distinct element method simulation of granular flow within industrial silos

Parisi, D.R.; Masson, S.; Martinez, J.

doi:10.1061/(ASCE)0733-9399(2004)130:7(771)

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Parisi, D.R.; Masson, S.; Martinez, J. "Partitioned distinct element method simulation of granular flow within industrial silos" (2004) Journal of Engineering Mechanics. 130(7):771-779

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Abstract:

A method for performing discrete element simulations of granular flow and pressures within industrial silos is presented. Special attention is devoted to complex problems involving large numbers of particles and sophisticated boundary conditions due to the presence of inserts. The proposed method consists of partitioning the silo into layers that are analyzed sequentially, and in determining stresses and velocities at the virtual interlayer boundaries. The method is first validated by simulating the discharge of a single insert hopper containing 20,000 particles, performing both a simulation of the whole silo and a multilayer partition. The results show a small discrepancy in the displacement fields produced by the two simulations. Then the discharge of an industrial silo containing 170,000 particles with several inserts of different size and shape is simulated. The relevance of the stress and velocity fields obtained confirms the feasibility and the efficiency of the procedure. The method allows for managing huge numbers of particles with a limited memory capacity and a gain of computational time that may be significant depending on each particular case. © ASCE.

Registro:

Documento:	Artículo
Título:	Partitioned distinct element method simulation of granular flow within industrial silos
Autor:	Parisi, D.R.; Masson, S.; Martinez, J.
Filiación:	Dept. of Chemical Engineering, Univ. of Buenos Aires, 1428 Ciudad Universitaria, Buenos Aires, Argentina Dept. of Civil Engineering, Ma2g Lab., INSA Rennes, Rennes Cedex 35043, France
Palabras clave:	Boundary conditions; Computational methods; Computer simulation; Granular materials; Stress analysis; Industrial silos; Inserts; Silos (agricultural); flow modeling; granular medium; silo
Año:	2004
Volumen:	130
Número:	7
Página de inicio:	771
Página de fin:	779
DOI:	http://dx.doi.org/10.1061/(ASCE)0733-9399(2004)130:7(771)
Título revista:	Journal of Engineering Mechanics
Título revista abreviado:	J. Eng. Mech.
ISSN:	07339399
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_07339399_v130_n7_p771_Parisi

Referencias:

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Citas:

---------- APA ----------

Parisi, D.R., Masson, S. & Martinez, J. (2004) . Partitioned distinct element method simulation of granular flow within industrial silos. Journal of Engineering Mechanics, 130(7), 771-779.
http://dx.doi.org/10.1061/(ASCE)0733-9399(2004)130:7(771)

---------- CHICAGO ----------

Parisi, D.R., Masson, S., Martinez, J. "Partitioned distinct element method simulation of granular flow within industrial silos" . Journal of Engineering Mechanics 130, no. 7 (2004) : 771-779.
http://dx.doi.org/10.1061/(ASCE)0733-9399(2004)130:7(771)

---------- MLA ----------

Parisi, D.R., Masson, S., Martinez, J. "Partitioned distinct element method simulation of granular flow within industrial silos" . Journal of Engineering Mechanics, vol. 130, no. 7, 2004, pp. 771-779.
http://dx.doi.org/10.1061/(ASCE)0733-9399(2004)130:7(771)

---------- VANCOUVER ----------

Parisi, D.R., Masson, S., Martinez, J. Partitioned distinct element method simulation of granular flow within industrial silos. J. Eng. Mech. 2004;130(7):771-779.
http://dx.doi.org/10.1061/(ASCE)0733-9399(2004)130:7(771)