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	Provedor de dados ArchiMer (4) CIGR Journal (2) Autor Aguedjou, Micael (1) Alory, Gael (1) Altuntaş, Ebubekír (1) Assene, Fernand (1) Bourlès, Bernard (1) Boutelier, Jennifer (1) Bryden, Hl (1) Buiter, Susanne J. H. (1) Burberry, Caroline (1) Callot, Jean-paul (1) Cattin, R. (1) Cavozzi, Cristian (1) Cerca, Mariano (1) Chaigneau, Alexis (1) Chamot-rooke, N. (1) Chen, Jian-hong (1) Chen, Ying (1) Cravatte, Sophie (1) Cristallini, Ernesto (1) Cruden, Alexander R. (1) Mais... Palavra-chave Friction (6) Mixing (2) Acidity (1) Agricultural machinery (1) Analogue modeling (1) Benchmarking (1) Bioprocessing PFC3D (1) Brittle wedges (1) Chenal du banc des Faroe (1) Cohesion (1) Color (1) Critical taper (1) Density (1) Discrete element model (DEM) (1) Energy (1) Equatorial atlantic (1) Faroe Bank Channel (1) Flux supérieur (1) Hemp (1) Kinetic (1) Mais... Tipo do documento Text (4) Info:eu-repo/semantics/article (2) Ano 2020 (1) 2016 (1) 2015 (2) 2009 (1) 2003 (1) País France (4) China (2) Idioma Inglês (6)		Registro completo Provedor de dados:  CIGR Journal País:  China Título:  Application of PFC3D to simulate a planetary ball mill Autores:  Chen, Ying Guzman, Leno Potter, Simon Khan, Majibur Data:  2015-12-29 Ano:  2015 Palavras-chave:  Agricultural machinery Bioprocessing PFC3D Discrete element model (DEM) Hemp Planetary ball mill Power Energy Kinetic Friction Resumo:  Planetary ball mill is a versatile machine which has been used for grinding different types of materials for size reduction and lately for hemp decortication. PFC3D, software employing the discrete element method (DEM), was used to simulate the power and energy requirement of grinding hemp for fibre using a planetary ball mill. The simulation was facilitated through a series of hemp grinding tests using the planetary ball mill to examine the power draw of the mill. The test results identified that grinding speed had a significant effect on the power draw of the mill. The power draw data were used to calibrate the discrete element parameters for different grinding speeds. Using the calibrated parameters, one was able to predict the kinetic energy and friction power loss of the ball mill. The average value of kinetic energy predicted, for grinding speeds of 200 – 500 r/min, ranged between 0.01 and 0.07 J per grinding ball. The prediction showed that frictional power losses dispersed approximately 10% of the total power requirement of the ball mill. Overall, the simulation using PFC3Dimproved understanding about the dynamics of the grinding balls within a planetary ball mill as well as the energy available for transfer in collisions between the grinding balls and hemp material. Tipo:  Info:eu-repo/semantics/article Idioma:  Inglês Identificador:  http://www.cigrjournal.org/index.php/Ejounral/article/view/2986 Editor:  International Commission of Agricultural and Biosystems Engineering Relação:  http://www.cigrjournal.org/index.php/Ejounral/article/view/2986/2242 http://www.cigrjournal.org/index.php/Ejounral/article/downloadSuppFile/2986/1013 Formato:  application/pdf Fonte:  Agricultural Engineering International: CIGR Journal; Vol 17, No 4 (2015): CIGR Journal; 235-246 1682-1130 Fechar

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