REFERENCES
- Pettersson, M.; Nordfjell, T. Fuel quality changes during seasonal storage of compacted logging residues and young trees. Biomass and Bioenergy 2007, 31(11–12), 782–792.
- Rentizelas, A.; Tolis, A.; Tatsiopoulos, I. Logistics issues of biomass: The storage problem and the multi-biomass supply chain. Renewable and Sustainable Energy Reviews 2009, 13(4), 887–894.
- Savoie, P.; Mailhot, A. Influence of eight factors on the drying rate of timothy hay. Canadian Agricultural Engineering 1986, 28(2), 145–148.
- Zomorodian, A.; Kavoosi, Z.; Momenzadeh, L. Determination of EMC isotherms and appropriate mathematical models for canola. Food and Bioproducts Processing 2010, 89(4), 407–413.
- Afzal, M.; Bedane, A.; Sokhansanj, S.; Mahmood, W. Storage of comminuted and uncomminuted forest biomass and its effect on fuel quality. BioResources 2010, 5(1), 55–69.
- Casal, M.; Gil, M.; Pevida, C.; Rubiera, F.; Pis, J. Influence of storage time on the quality and combustion behaviour of pine woodchips. Energy 2010, 35(7), 3066–3071.
- Eriksson, L.; Gustavsson, L. Comparative analysis of wood chips and bundles—Costs, carbon dioxide emissions, dry-matter losses and allergic reactions. Biomass and Bioenergy 2010, 34(1), 82–90.
- Gislerud, O. Drying and storing of comminuted wood fuels. Biomass 1990, 22(1–4), 229–244.
- Jirjis, R. Effects of particle size and pile height on storage and fuel quality of comminuted Salix viminalis. Biomass and Bioenergy 2005, 28(2), 193–201.
- Sturos, J.B. Characterization and air drying of chunkwood and chips. U.S. Department of Agriculture, Forest Service, North Central Forest Experiment Station; St. Paul, MN; Research Note NC-308, 1984.
- Basunia, M.; Abe, T. Adsorption isotherms of barley at low and high temperatures. Journal of Food Engineering 2005, 66(1), 129–136.
- Lahsasni, S.; Kouhila, M.; Mahrouz, M.; Fliyou, M. Moisture adsorption-desorption isotherms of prickly pear cladode (Opuntia ficus indica) at different temperatures. Energy Conversion and Management 2003, 44(6), 923–936.
- Mohamed, L.A.; Kouhila, M.; Lahsasni, S.; Jamali, A.; Idlimam, A.; Rhazi, M.; Aghfir, M.; Mahrouz, M. Equilibrium moisture content and heat of sorption of Gelidium sesquipedale. Journal of Stored Products Research 2005, 41(2), 199–209.
- Sun, D.W. Selection of EMC/ERH isotherm equations for shelled corn based on fitting to available data. Drying Technology 1998, 16(3–5), 779–797.
- Krupińska, B.; Strømmen, I.; Pakowski, Z.; Eikevik, T. Modeling of sorption isotherms of various kinds of wood at different temperature conditions. Drying Technology 2007, 25(9), 1459–1466.
- Yang, C.Y.; Fon, D.S.; Lin, T.T. Simulation and validation of thin layer models for peanut drying. Drying Technology 2007, 25(9), 1515–1526.
- Nilsson, D.; Karlsson, S. A model for the field drying and wetting processes of cut flax straw. Biosystems Engineering 2005, 92(1), 25–35.
- Johansson, J.; Salin, J. G. Application of percolation modelling on end-grain water absorption in aspen (Populus tremula L.). Wood Material Science & Engineering 2011, 6(3), 112–118.
- Salin, J.G. Fibre level modelling of free water behaviour during wood drying and wetting. Maderas. Ciencia y Tecnología 2011, 13(2), 153–162.
- Salin, J.G.; Gjerdrum, P. Modelling air-drying of wooden poles. In Proceedings of the COST E53 Meeting and EDG Drying Seminar, Bled, Slovenia, 2009; 78–86.
- Tonn, B.; Dengler, V.; Thumm, U.; Piepho, H.P.; Claupein, W. Influence of leaching on the chemical composition of grassland biomass for combustion. Grass and Forage Science 2011, 66(4), 464–473.
- Choong, E. Diffusion coefficients of softwoods by steady-state and theoretical methods. Forest Products Journal 1965, 15(1), 21–27.
- Choong, E.T.; Skaar, C. Diffusivity and surface emissivity in wood drying. Wood and Fiber Science 1972, 4(2), 80–86.
- Keey, R.B.; Langrish, T.A.; Walker, J.C. Kiln-drying of Lumber; Springer: Berlin, 2000.
- Stamm, A.J. Wood and Cellulose Science; The Ronald Press Company: New York, 1964.
- Phanphanich, M.; Mani, S. Drying characteristics of pine forest residues. Bioresources 2009, 5(1), 108–121.
- Lewis, W. The rate of drying of solid materials. Industrial & Engineering Chemistry 1921, 13(5), 427–432.
- Penman, H.L. Natural evaporation from open water, bare soil and grass. Proceedings of the Royal Society of London, Series A: Mathematical and Physical Sciences 1948, 193(1032), 120–145.
- Shuttleworth, W.D. Evaporation. In Handbook of Hydrology; Maidment, D. Ed.; McGraw-Hill: New York 1993.
- Barry, R.G.; Chorley, R. J. Atmosphere, Weather and Climate. Routledge: New York, 2009.
- ASABE. Psychrometric data (D271.2). American Society of Agricultural and Biological Engineers, St. Joseph, MI, 2010.
- Van den Berg, C.; Bruin, S. Water activity and its estimation in food systems: Theoretical aspects. In Water Activity: Influences on Food Quality; Rockland, L.B. Stewart, G.F. Eds.; Academic Press: New York, 1981; 1–61.
- Hartley, I.D. Application of the GAB sorption isotherm model to klinki pine (Araucaria klinkii Lauterb). Holzforschung 2000, 54(6), 661–663.
- Hartley, I.D.; Avramidis, S. Sorption hysteresis of western Canadian softwood species. Journal Institute of Wood Science 2002, 16(91), 63–64.
- Hunter, A. A complete theoretical isotherm for wood, based on capillary condensation. Wood Science and Technology 1996, 30(2), 127–131.
- Simpson, W.T. Predicting equilibrium moisture content of wood by mathematical models. Wood and Fiber Science 1973, 5(1), 41–49.
- He, X.; Lau, A.K.; Sokhansanj, S.; Lim, C.J.; Bi, X.T.; Melin, S.; Keddy, T. Moisture sorption isotherms and drying characteristics of aspen. Biomass and Bioenergy 2013, 57, 161–167.
- Environment Canada. http://climate.weatheroffice.gc.ca/climate_normals/index_e.html (accessed May 2011).
- ASABE. Moisture measurement—forage (S358.2). American Society of Agricultural and Biological Engineers, St. Joseph, MI, 2010.