36 Drying of Wood

More documents

Recommendations

Info

Doe, P.E., Oliver, A.R., and Booker, J.D., 1996a. A nonlinealstrain and moisture content model of variablehardwood drying schedules, Proceedings of theFourth IUFRO Wood Drying Conference, Rotorua,New Zealand, pp. 203–210.Doe, P.D., Booker, J.D., Innes, T.C., and Oliver, A.R.,1996b. Optimal lumber seasoning using acousticemission sensing and real-time strain modelling,Proceedings of the Fifth International IUFRO WoodDrying Conference, Québec, Canada, pp. 209–212.Dullien, F.A.L., 1992. Porous Media: Fluid Transport andPore Structure, 2nd ed., Academic Press, London.Fengel D. and Wegener, G., 1984. Wood: Chemistry, Ultrastructure,Reactions, de Gruyter, Berlin.Forest Products Laboratory, 1999, Wood handbook—Wood as an engineering material. General TechnicalReport FPL-GTR-113, U.S. Department ofAgriculture, Forest Service, Forest Products Laboratory,Madison, WI, 463 pp.Fumoto, H., Perng, W.R., Sebastian, L.P., 1984. Studies onFlow in Wood VIII. Air permeability and polymerpenetration of jack and red pines, MokuzaiGakkaishi, 30:646–652.Genevaux, J.-M., 1989. Le fluage à température linéairementcroissante: Caractérisation des sources de viscoélasticitéanisotrope du bois (Creep tests at increasingtemperature: determination of the sources of viscoelasticanisotropy in wood), Thèse de Doctorat del’Institut Nationnal Polytechnique de Lorraine,Nancy.Geoffrey, M.I., 1984. The glass transition of lignin andhemicellulose and their measurement by differentialthermal analysis, Wood Chem., 67(5): 118–121.Goring, D.A.I., 1963. Thermal softening of lignin, hemicelluloseand cellulose, Pulp and Paper Mag. Canada,T517–T527.Grace, C., 1996. Drying characteristics of heartwood, M.E.(Chen) thesis, University of Canterbury, NewZealand.Guilmain, C., Baixeras, O., and Jomaa,W., 1996. Discontinuousand convective vacuum drying of oak: experimentaland modelling studies, Proceedings ofthe Fifth International IUFRO Wood Drying Conference,Québec, Canada, pp. 147–157.Hanhijärvi, A., 1999. Deformation properties of Finnishspruce and pine wood in tangential and radialdirections in association to high temperaturedrying, part II: experimental results underconstant conditions, Holz als Roh- Werks., 57:365–372.Haslett, A.N., 1998. Drying radiata pine in New Zealand:research and commercial aspects, FRI Bull., 206,NZFRI, Rotorua, New Zealand.Hedlund, B.A., 1996. Temperature and final moisture contentdistributions in vacuum driers with differentfan configurations, Proceedings of the Fifth InternationalIUFRO Wood Drying Conference, Québec,Canada, pp. 159–167.Hidayat, S. and Simpson, W.T., 1994. Use of green moisturecontent and basic specific gravity to group tropicalwoods for kiln drying, USDA FS Forest ProductsLaboratory Research Note RN-0263, Madison,WI.Hilderbrand, R., 1989. Die Schnittholztrocknung (The Dryingof Sawn Timber). Hilderbrand Maschinenbau,Nürtingen.Hoadley, R.B., 1980. Understanding wood, a craftsman’sguide to wood technology. The Taunton Press,Newtown, Connecticut, 256pp.Holmes, W.S. and Riley, S.G., 1996. Microwave method forin-kiln moisture content measurement, Proceedingsof the Fifth International IUFRO Wood Drying Conference,Québec, Canada, pp. 255–259.Imré, L., 1995. Solar drying, in Mujumdar, A.S. (Eds.), Drying’84, Hemisphere, Washington, D.C., pp. 373–452.Irvine, G.M., 1984. The glass transitions of lignin andhemicellulose and their measurements by differentialthermal analysis, Tappi J., 67(5): 118–121.Joly, P. and More-Chevalier, F., 1980. Théorie, pratique etéconomie du séchage des bois (Theory, Practice andEconomics of Wood Drying), H.Vidal éditeur, Paris.Jomaa, W. and Baixeras, O., 1997. Discontinuous vacuumdrying of oakwood: modelling and experimentalinvestigations, Drying Technol., 15: 2129–2144.Josza, L.A. and Middleton, G.R., 1994. A discussion ofwood quality attributes and their practical implications,Forintek Canada Special Publ. SP-34.Kamke, F.A., Casey, L.J., 1988. Gas pressure and temperaturein the mat during flakeboard manufacture,Forest Products Journal, 38:41–43.Keey, R.B., 1968. Batch drying with air recirculation,Chem. Eng. Sci., 23: 1299–1308.Keey, R.B., 1978. Introduction to Industrial Drying Operations,Pergamon, Oxford.Keey, R.B., 2003. Growing pains: developing strategies todry fast-grown softwood, Proceedings of the SecondNordic Drying Conference, Copenhagen, Denmark,25–27 June.Keey, R.B. and Pang, S., 1994. The high-temperature dryingof softwood boards in a kiln-wide model, Trans.IChemE., 72A: 741–753.Keey, R.B., Langrish, T.A.L., and Walker, J.C.F., 2000.The Kiln-Drying of Lumber, Springer, Berlin.Kho, P.C.S., Keey, R.B., and Walker, J.C.S., 1990. Thevariation of local mass-transfer coefficients instreamwise direction over a series of in-line bluntslabs, Proceedings of the Chemeca Conference,Auckland, New Zealand, pp. 348–355.Kollmann, F.P. and Côté, W.A., 1968. Principles of WoodScience and Technology, Solid Wood, Vol. 1,Springer, Berlin.Kröll, K., 1978. Trockner und Trocknungsverfahren (Dryersand Drying Processes), 2nd ed., Springer, Berlin.Langrish, T.A.G., 1999. The significance of gaps betweenboards in determining the moisture content profilesin the drying of hardwood timber, Drying Technol.,17: 1481–1494.Langrish, T.A.G. and Keey, R.B., 1992, A solar-heated kilnfor drying New Zealand hardwoods, Trans IPENZChem./Elec./Mech., 18: 9–14.ß 2006 by Taylor & Francis Group, LLC.
Langrish, T.A.G., Keey, R.B., Kho, P.C.S., and Walker,J.C.F., 1993. Time-dependent flows in arrays oftimber boards, flow visualisation, mass-transfermeasurements and numerical simulation, Chem.Eng. Sci., 48: 2211–2223.Langrish, T.A.G., Booker, A.S., Davis, C.L., Muson, H.E.,and Barton, G.W., 1997. An improved drying schedulefor Australian ironbark timber: optimisationand experimental verification, Drying Technol.,15: 47–70.Ledig, S. F. and Militzer, K.-E., 1999. Measured gas velocityand moisture content distribution in a convectivevacuum kiln, Proceedings of the SixthInternational IUFRO Wood Drying Conference,Stellenbosch, South Africa, pp. 31–36.Lide, D.R., 1995. Handbook of Chemistry and Physics, 76thed., CRC Press, New York.Lowery D.P., 1979. Vapor pressure generated in wood duringdrying, Wood Science, 5: 73–80.Mackay, J.F.G. and Oliveira, L.C., 1989. Kiln operator’shandbook for Western Canada, Forintek CanadaCorp Spec. Publ. SP-31, Vancouver.Mark, R., 1967. Cell wall mechanics of tracheids, YaleUniversity Press, New Haven and London.Martensson, A., 1992. Mechanical behaviour of wood exposedto humidity variations, Doctoral dissertation,Lund Institute of Technology.Martin, M., Perré, P., and Moser, M., 1995. La perte detempérature à travers la charge: intérêt pour le pilotaged’un séchoir à bois à haute température(Temperature loss across the load: interest to controla high-temperature wood dryer), Int. J. HeatMass Transfer, 38(6): 1075–1088.Mauget, B. and Perré, P., 1999. A large displacement formulationfor anisotropic constitutive laws, Eur.J. Mech. A/Solids, 18: 859–877.McDaniels, D.K., 1984. The Sun, Our Future EnergySource, 2nd ed., Wiley, New York.McDonald, K.A. and Wastney, S., 1995. Analysis of volatileemission from kiln drying of radiata pine, Proceedingsof the Eighth International Symposium onWood Pulp Chemistry, Vol. 3, pp. 431–436.McLean, V., 2003. Kiln drying: challenges still to meet, NZForest. Industry, 34(2): 32–36.Meyer, R.W., 1971. Influence of pit aspiration on earlywoodpermeability of Douglas-Fir, Wood Fiber, 2:328–339.Milota, M.R., 2001. Emissions from small-scale kilns: testconsiderations and comparison to large-scalekilns, Proceedings of the Seventh InternationalIUFRO Wood Drying Conference, Tsukuba, Japan,pp. 336–341.Mohager, S. and Toratti, T., 1993. Long-term bendingcreep of wood in cyclic relative humidity, WoodSci. Technol., 27: 49–59.Morén, T., 2001. Adaptive kiln control systems based onCT-scanning and industrial practice, Proceedings ofthe Seventh International IUFRO Wood Drying Conference,Tsukuba, Japan, pp. 48–53.Nijdam, J.J., 1998. Reducing moisture-content variations inkiln-dried timber, Ph.D. thesis, University of Canterbury,New Zealand.Nijdam, J.J. and Keey, R.B., 1996. Influence of local variationsof air velocity and flow direction reversals onthe drying of stacked timber boards in a kiln, Trans.IChemE, 74A: 882–892.Nijdam, J.J. and Keey, R.B., 1999. Airflow behaviorin timber (lumber) kilns, Drying Technol., 17:1511–1522.Nijdam, J.J. and Keey, R.B., 2000. The influence of kilngeometry on flow maldistribution across timberstacks in kilns, Drying Technol., 18: 1865–1877.Nijdam, J.J. and Keey, R.B., 2002. New timber kiln designsfor promoting uniform airflows within the woodstack, Trans. IChemE, 80(A): 739–744.Nijdam, J.J., Langrish, T.A.G., and Keey, R.B., 2000. Ahigh-temperature drying model for softwood timber,Chem. Eng. Sci., 55: 3585–3598.Ormarsson, S., 1999. Numerical analysis of moisturerelateddistortions in sawn timber, PhD thesis,Chalmers University of Technology, Sweden.Ostberg, G., Salmen, L., and Terlecki, J., 1990. Softeningtemperature of moist wood measured by differentialscanning calorimetry, Holzforschung, 44:223–225.Packman, D.F., 1960. The acidity of wood, Holzforschung,14(6): 178–183.Pandey, C.N., 2001. Systemization of kiln drying schedulesfor commercial Indian woods, Proceedings of theSeventh International IUFRO Wood Drying Conference,Tsukuba, Japan, pp. 78–83.Pang, S. and Haslett, A.N., 2002. Effects of sawing pattern ondrying rate and residual drying stresses of Pinus radiatalumber, Maderas: Ciencia Tecnologia, 4(1): 40–49.Pang, S. Keey, R.B. and Walker, J.C.F., 1994. Modelling ofthe high-temperature drying of mixed sap and heartwoodboards, Proceedings of the 4th IUFRO WoodDrying Conference, 430–439, Rotorua, New Zealand.Pang, S., Keey, R.B., and Langrish, T.A.G., 1995. Modellingthe temperature profiles within boards duringthe high-temperature drying of Pinus radiata timber:the influence of airflow reversals, Int. J. HeatMass Transfer, 38: 189–203.Panshin, A.J. and de Zeeuw, C., 1980. Textbook of WoodTechnology, 4th ed., McGraw-Hill, New York.Passard, J. and Perré, P., 2001. Creep tests under watersaturatedconditions: do the anisotropy ratios ofwood change with the temperature and time dependency?Proceedings of the Seventh InternationalIUFRO Wood Drying Conference, Tokyo, Japan,pp. 230–237.Passard, J. and Perre, P., 2005. Viscaqelastic behaviour ofgreenwood across the grain. Part II A temperaturedependent constitutive model defined by increasemethod. Annals of Forest sec., 62: 823–830.Perré P., 1987. Measurements of softwoods permeability toair: Importance upon the drying model, InternationalCommunicable Heat and Mass Transfer, 14: 519–529.ß 2006 by Taylor & Francis Group, LLC.
Page 1 and 2:
36Drying of Wood: Principlesand Pra
Page 3 and 4: Primary growthSecondannual ringFirs
Page 5 and 6: FIGURE 36.4 Wood is formed by cell
Page 7 and 8: TABLE 36.1Elementary Composition of
Page 9 and 10: FIGURE 36.8 Tension wood in Peduncu
Page 11 and 12: 36.2.1.3 Bound WaterBound moisture
Page 13 and 14: TABLE 36.6Order of Magnitude of Shr
Page 15 and 16: The transverse permeability and the
Page 17 and 18: FIGURE 36.14 Relative permeability
Page 19 and 20: Low moisture contentHigh moisture c
Page 21 and 22: Boundary layersExternal flowTP vHea
Page 23 and 24: HeatVaporVessel ortracheidLiquidPit
Page 25 and 26: Moisture content (%)15010050Sapwood
Page 27 and 28: to the history of that point (« me
Page 29 and 30: ConstantmoisturecontentTime t = 0 +
Page 31 and 32: Element 1 Element 2 Element NElemen
Page 33 and 34: Averaged moisture content (%)907560
Page 35 and 36: Moisture content (%)12010080604020A
Page 37: Second drying periodTensionParamete
Page 42 and 43: eaction wood produced by environmen
Page 44 and 45: where the boards butt up due to shr
Page 46 and 47: 1.2Normalized moisture content (Φ)
Page 48 and 49: set at a constant value at constant
Page 50 and 51: oards by conduction whereas the vac
Page 52 and 53: KilnSolarcollectorCondenserControlv
Page 56 and 57: Perré P., 1992. Transferts couplé
show all

36 Drying of Wood

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?