SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Referencias del artículo

GATICA, Y.A.; SALINAS, C. H.  y  ANANIAS, R.A.. Modeling conventional one-dimensional drying of radiata pine based on the effective diffusion coefficient. Lat. Am. appl. res. [online]. 2011, vol.41, n.2, pp. 183-189. ISSN 0327-0793.


    1. Ananías, R.A., S. Vallejos and C. Salinas, "Estudio de la cinética del secado convencional y bajo vacío del pino radiata," Maderas. Ciencia y tecnología, 7, 37-47 (2005). [ Links ]


    2. Chen, X.D., "Moisture diffusivity in food and biological materials," Drying Technology, 25, 1203-1213 (2007) [ Links ]


    3. Comstock, G.L., "Moisture diffusion coefficients in wood as calculated from adsorption, desorption and steady state data," Forest Products Journal, 13, 97-103 (1963). [ Links ]


    4. Davis, C.P., C.G. Carrington and Z.F. Sum, "The influence of compression wood on the drying curves of pinus radiata dried in dehumidifier conditions," Drying Technology, 20, 2005-2026 (2002). [ Links ]


    5. Hukka, A., "The effective diffusion coefficient and mass transfer coefficient of nordic softwoods as calculated from direct drying experiments," Holzforschung, 53, 534-540 (1999). [ Links ]


    6. Keey, R., T. Langrish and J. Walker, Kiln drying lumber, Springer, N. York (2000). [ Links ]


    7. Lapidus, L. and G.F. Pinder, Numerical solution of partial differential equations in science and engineering. John Wiley & Sons Inc. (1982). [ Links ]


    8. Luikov, S.A.V., Heat and mass transfer in capillary porous bodies. Pergamon Press, Oxford. pp 522 (1966). [ Links ]


    9. INN, Madera. Parte 1: determinación de humedad, Instituto Nacional de Normalización, Santiago, Chile, NCH 176/1 Of84 (1984). [ Links ]


    10. INN, Madera. Selección, obtención y acondicionamiento de muestras y probetas para la determinación de propiedades físicas y mecánicas, Instituto Nacional de Normalización, Santiago, Chile, NCh 968. Of. 1986 (1986). [ Links ]


    11. Pang, S., "External heat and mass transfer coefficients for kiln drying of timber," Drying Technology, 14, 859-871 (1996). [ Links ]


    12. Pang, S., "Relationship between a diffusion model and a transport model for softwood drying," Wood and Fiber Science, 29, 58-67 (1997). [ Links ]


    13. Patankar, S.V., Numerical heat transfer and fluid flow, Hemisphere Publishing Corporation, Washington DC (1980). [ Links ]


    14. Rozas, C., I. Tomaselli and E. Zanoelo, "Internal mass transfer coefficient during drying of softwood (Pinus elliotti) boards," Wood Science and Technology, 43, 361-373 (2009). [ Links ]


    15. Salinas, C., R.A. Ananías and P. Ruminot, "Modelación Fenomenológica del Secado de Madera de Pino Radiata a Alta Temperatura," Maderas. Ciencia y tecnología, 10, 207-217 (2008). [ Links ]


    16. Siau, J.F., Transport Processes in Wood. Springer, New York (1984). [ Links ]


    17. Siau, J.F., Wood: Influence of moisture on physical properties, VPI and State University, USA (1995). [ Links ]


    18. Simpson, W.T. and J.Y. Liu, "An optimization technique to determine red oak surface and internal moisture transfer coefficients during drying," Wood and Fiber Science, 29, 312-318 (1997). [ Links ]


    19. Smith, S. and T. Langrish, "Multicomponent solid modeling of continuos and intermittent drying of Pinus radiata sapwood below the fiber saturation point," Drying Technology, 26, 844-854 (2008). [ Links ]


    20. Stamm, A., Wood and cellullose science, Ch. 23: Diffusion in wood. Ronald Press, New York (1964). [ Links ]


    21. Whittaker, S., "Simultaneous heat, mass, and momentum transfer in porous media: A theory of drying," Advances in Heat Transfer, 13, 119- 203 (1977). [ Links ]