Citations (38)
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Read on this site (12)
R. Rémond, I. Turner & P. Perré. (2010) Modeling the Drying and Heat Treatment of Lignocellulosic Biomass: 2D Effects Due to the Product Anisotropy. Drying Technology 28:8, pages 1013-1022.
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C. A. Oyarzun & L. A. Segura. (2009) Design and Construction of Glass Micromodels for the Study of Moisture Transport in Softwoods. Drying Technology 27:1, pages 14-29.
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S. A. Smith & T. A. G. Langrish. (2008) Multicomponent Solid Modeling of Continuous and Intermittent Drying of Pinus radiata Sapwood Below the Fiber Saturation Point. Drying Technology 26:7, pages 844-854.
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Wei Wang, Guohua Chen & ArunS. Mujumdar. (2007) Physical Interpretation of Solids Drying: An Overview on Mathematical Modeling Research. Drying Technology 25:4, pages 659-668.
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Patrick Perré & Romain Rémond. (2006) A Dual-Scale Computational Model of Kiln Wood Drying Including Single Board and Stack Level Simulation. Drying Technology 24:9, pages 1069-1074.
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M. E. Katekawa & M. A. Silva. (2006) A Review of Drying Models Including Shrinkage Effects. Drying Technology 24:1, pages 5-20.
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P. Perré. (2005) Meshpore: A Software Able to Apply Image-Based Meshing Techniques to Anisotropic and Heterogeneous Porous Media. Drying Technology 23:9-11, pages 1993-2006.
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R. Rémond, P. Perré & E. Mougel. (2005) Using the Concept of Thin Dry Layer to Explain the Evolution of Thickness, Temperature, and Moisture Content during Convective Drying of Norway Spruce Boards. Drying Technology 23:1-2, pages 249-271.
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R. Rémond, P. Perré & E. Mougel. (2005) Using the Concept of Thin Dry Layer to Explain the Evolution of Thickness, Temperature, and Moisture Content during Convective Drying of Norway Spruce Boards. Drying Technology 23:1-2, pages 249-271.
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P. Perré & J. Passard. (2004) A Physical and Mechanical Model Able to Predict the Stress Field in Wood over a Wide Range of Drying Conditions. Drying Technology 22:1-2, pages 27-44.
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S.L. Truscott & I.W. Turner. (2004) AN INVESTIGATION OF THE ACCURACY OF THE CONTROL-VOLUME FINITE-ELEMENT METHOD BASED ON TRIANGULAR PRISMATIC ELEMENTS FOR SIMULATING DIFFUSION IN ANISOTROPIC MEDIA. Numerical Heat Transfer, Part B: Fundamentals 46:3, pages 243-268.
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P. A. Jayantha, I. W. Turner. (2001) A COMPARISON OF GRADIENT APPROXIMATIONS FOR USE IN FINITE-VOLUME COMPUTATIONAL MODELS FOR TWO-DIMENSIONAL DIFFUSION EQUATIONS. Numerical Heat Transfer, Part B: Fundamentals 40:5, pages 367-390.
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Articles from other publishers (26)
Maryam Shirmohammadi. (2023) Study of the hygroscopic properties of three Australian wood species used as solid wood and composite products. European Journal of Wood and Wood Products.
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Sachin Prabhakar Komble, Govind Kulkarni, Pradyumna Dhamangaonkar & Chandrashekhar Sewatkar. (2023)
Mathematical modeling of drying characteristics for cylindrical
Thompson
seedless grapes under natural convection
. Journal of Food Process Engineering 46:3.
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Hossein Davarzani, Nicolas Philippe, Maxime Cochennec, Stéfan Colombano, Malorie Dierick, Behzad Ataie-Ashtiani, Pierre-Yves Klein & Manuel Marcoux. (2022) Numerical simulations of high viscosity DNAPL recovery in highly permeable porous media under isothermal and non-isothermal conditions. Journal of Contaminant Hydrology 251, pages 104073.
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Alexander Mainey, Benoit P. Gilbert, Adam Redman, Shanmuganathan Gunalan & Henri Bailleres. (2021) Time dependent moisture driven backout of nailplates: experimental investigations and numerical predictions. European Journal of Wood and Wood Products 79:6, pages 1589-1605.
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Zachary Welsh, Matthew J. Simpson, Md Imran H. Khan & M. A. Karim. (2018) Multiscale Modeling for Food Drying: State of the Art. Comprehensive Reviews in Food Science and Food Safety 17:5, pages 1293-1308.
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Adam L. Redman, Henri Bailleres, Benoit P. Gilbert, Elliot J. Carr, Ian W. Turner & Patrick Perré. (2017) Finite element analysis of stress-related degrade during drying of Corymbia citriodora and Eucalyptus obliqua. Wood Science and Technology 52:1, pages 67-89.
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Adam L. Redman, Henri Bailleres, Patrick Perré, Elliot Carr & Ian Turner. (2017) A relevant and robust vacuum-drying model applied to hardwoods. Wood Science and Technology 51:4, pages 701-719.
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Adam L. Redman, Henri Bailleres, Ian Turner & Patrick Perré. (2016) Characterisation of wood–water relationships and transverse anatomy and their relationship to drying degrade. Wood Science and Technology 50:4, pages 739-757.
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Miroslav Trcala. (2015) Spectral stochastic modeling of uncertainties in nonlinear diffusion problems of moisture transfer in wood. Applied Mathematical Modelling 39:5-6, pages 1740-1748.
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Giana Almeida, Diego V.B. Santos & Patrick Perré. (2014) Mild pyrolysis of fast-growing wood species (Caribbean pine and Rose gum): Dimensional changes predicted by the global mass loss. Biomass and Bioenergy 70, pages 407-415.
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Sandoval-Torres Sadoth, Hernández-Bautista Emilio & Rodríguez-Ramírez Juan. (2013) Simulación multi-física del secado de madera en COMSOL Multiphysics 3.4.. Ingeniería, Investigación y Tecnología 14:3, pages 389-398.
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Petr Čermák & Miroslav Trcala. (2012) Influence of uncertainty in diffusion coefficients on moisture field during wood drying. International Journal of Heat and Mass Transfer 55:25-26, pages 7709-7717.
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D. Wu & X.F. Peng. (2009) Saturation evolution induced by inner pore structural effects in a porous material during wetting. International Journal of Heat and Mass Transfer 52:19-20, pages 4664-4668.
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Patrick Perré & Ian W. Turner. (2006) A dual-scale model for describing drier and porous medium interactions. AIChE Journal 52:9, pages 3109-3117.
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Ricardo Baettig, Romain Rémond & Patrick Perré. (2006) Measuring moisture content profiles in a board during drying: a polychromatic X-ray system interfaced with a vacuum/pressure laboratory kiln. Wood Science and Technology 40:4, pages 261-274.
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S.L. Truscott & I.W. Turner. (2005) A heterogeneous three-dimensional computational model for wood drying. Applied Mathematical Modelling 29:4, pages 381-410.
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Kristian Krabbenhoft & Lars Damkilde. (2004) Double porosity models for the description of water infiltration in wood. Wood Science and Technology 38:8, pages 641-659.
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Ian W. Turner & Patrick Perré. (2004) Vacuum drying of wood with radiative heating: II. Comparison between theory and experiment. AIChE Journal 50:1, pages 108-118.
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M.M. Hussain & I. Dincer. (2003) Two-dimensional heat and moisture transfer analysis of a cylindrical moist object subjected to drying: A finite-difference approach. International Journal of Heat and Mass Transfer 46:21, pages 4033-4039.
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F. Liu, I. Turner, V. Anh & N. Su. (2003) A two-dimensional finite volume method for transient simulation of time- and scale-dependent transport in heterogeneous aquifer systems. Journal of Applied Mathematics and Computing 11:1-2, pages 215-241.
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Pasdunkorale A. Jayantha & Ian W. Turner. (2003) On the use of surface interpolation techniques in generalised finite volume strategies for simulating transport in highly anisotropic porous media. Journal of Computational and Applied Mathematics 152:1-2, pages 199-216.
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Jayantha Pasdunkorale A.Ian W. Turner. (2003) A second order finite volume technique for simulating transport in anisotropic media. International Journal of Numerical Methods for Heat & Fluid Flow 13:1, pages 31-56.
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F. Liu, I. Turner & V. Anh. (2002) An unstructured mesh finite volume method for modelling saltwater intrusion into coastal aquifers. Journal of Applied Mathematics and Computing 9:2, pages 391-407.
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R.J. Goldstein, E.R.G. Eckert, W.E. Ibele, S.V. Patankar, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F.A. Kulacki, U. Kortshagen & S. Garrick. (2001) Heat transfer – a review of 1999 literature. International Journal of Heat and Mass Transfer 44:19, pages 3579-3699.
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Patrick Perré & Ian Turner. (2001) Determination of the Material Property Variations Across the Growth Ring of Softwood for Use in a Heterogeneous Drying Model Part 1. Capillary Pressure,Tracheid Model and Absolute Permeability. Holzforschung 55:3, pages 318-323.
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Patrick Perré & Ian W. Turner. (1999) A 3-D version of TransPore: a comprehensive heat and mass transfer computational model for simulating the drying of porous media. International Journal of Heat and Mass Transfer 42:24, pages 4501-4521.
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