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Innes, T.C., Bennet, P.J. & Lee, M.W. (2008) Processing backsawn Tasmanian regrowth Eucalyptus obliqua. Tasforests, 17(75-94): Leggate, W., Palmer, G., Mcgavin, R. & Muneri, A. (2000) Productivity, sawn recovery and potential rates of return from eucalypt plantations in queensland. In: The future of eucalypts for wood products. Launceston, Tasmania, Malmquist, L. & Noack, D. (1960) Untersuchungen über die Trocknung empfindlicher Laubhölzer in reinemHeißdampf (ungesättigter Wasserdampf) bei Unterdruck. Holz als Roh - und Werkstoff, 18(5): 171-180. Mcmillen, J.M. (1963) Stresses in wood during drying. 1652. U.S. Department of Agriculture, Forest Service, Forest Products Laboratory. Milota, M.R., Tschernitz, J.L., Verril, S.P. & Mianowski, T. (1995) Gas permeability of plantation loblolly pine. Wood and Fibre Science, 27(1): 34-40. Nolan, G., Innes, T.C., Redman, A.L. & Mcgavin, R. (2003) Australian hardwood drying best practice manual. Forest and Wood Products Research and Development Corporation, Melbourne. Pearn, G. (2007) Personal communication, New South Wales, Boral Timber. Perré, P. (1996) The Numerical Modelling of Physical and Mechanical Phenomena Involved in Wood Drying: an Excellent Tool for Assisting with the Study of New Processes. In: 5th Int. IUFRO Wood Drying Conference. Quebec, Canada, Perré, P. (2005a) Meshpore: A software able to apply image-based meshing techniques to anisotropic and heterogeneous porous media. Drying Technology, 23(1993-2006. Perré, P. (2005b) MeshPore: a software able to apply image-based meshing techniques to anisotropic and heterogeneous porous media. Drying Technology, 23(9-11): 1993-2006. Perré, P. (2007a) Chapter 7 - Fluid Migration in Wood. In: Perré, P. (Ed.) Fundamentals of Wood Drying, A.R.BO.LOR, Nancy. pp. 125-156. Perré, P. (2007b) Experimantal device for the accurate determination of wood-water relations on micro-samples. Holzforschung, 61(4): 419-429. Perré, P. (2010) Personal communication, Brisbane, Perré, P. & Turner, J.W. (1999a) Transpore: A generic heat and mass transfer computational model for understanding and visualising the drying of porous media. Drying Technology, 17(7): 1273-1289. Perré, P. & Turner, J.W. (2008) A mesoscopic drying model applied to the growth rings of softwood: Mesh generation and simulation results. Maderas, Ciencia y technologia, 10(3): 251-274. 120 Evaluation of super–heated steam vacuum drying viability and development of a predictive drying model for Australian hardwood species – Final reportPDF Image | Evaluation of super-heated steam vacuum drying
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