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68. Mac.Millen, J; Wengert, E. 1978. Drying Eastern Hardwood Lumber. Forest Products Laboratory Forest Service. US Department of Agriculture. Available at: http://www.fpl.fs.fed.us/documnts/usda/ah528.pdf. Accessed on May 15th 2014. 69. McClelland, M. K. 1992. Using Simulation to Facilitate Analysis of Manufacturing Strategy. Journal of business logistics 13(1):215-237. 70. McDonald, A.G.; Gifford J.S.; Dare, P.H.; Steward, D. 1999. Characterisation of the condensate generated from vacuum-drying of radiata pine wood. European Journal of Wood and Wood Products (57):251-258. 71. Moldrup, S.; Moldrup, B. 2004. Energy efficiency and drying rates during Drying of Timber under Vacuum in an Atmosphere of Super-heated Steam. Presented at the 3rd IUFRO International Conference on Wood Drying, August 1992 (1992) Vienna, Austria. 72. Mottonen, V. 2006. Variation in drying behavior and final moisture content of wood during conventional low temperature drying and vacuum drying of Betula pendula timber. Drying Technology (24):1405-1413. 73. Moyne, C.; Martin, M. 1982. Influence of a total pressure gradient in gaseous phase on drying with particular reference to wood. International Heat and Mass Transfer 25(12):1839-1845. 74. Newnan, D.G.; Lavelle, J.P. 1998. Engineering Economic Analysis. 7th Edition. Austin, Texas: Engineering Press. 756 p. 75. Pang, S.; Dankin, M. 1999. Drying Rate and Temperature Profile for Superheated Steam Vacuum Drying and Moist Air Drying of Softwood Lumber. Drying Technology, Vol. 17(6). 1135-1147 pp. 76. Pegden, C.D.; Thiesing, R. 2013. Introduction to Simio. Proceedings of the 2013 Winter Simulation Conference. R. Pasupathy, S.-H. Kim, A. Tolk, R. Hill, and M. E. Kuhl, eds. 77. Pegden, D. 2007. Simio: A New Simulation System based on Intelligent Objects.. Proceedings of the 2007 Winter Simulation Conference, USA. S. G. Henderson, B. Biller, M.-H. Hsieh, J. Shortle, J. D. Tew, and R. R. Barton, eds. 134PDF Image | Impact of Vacuum-Drying on Efficiency of Hardwood Products
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