Conclusion
Comparison of the model with experimental data is currently in progress. It appears that more detailed studies of the adsorption dynamics, not just adsorption equilibrium, are needed.
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Ooshima, H., Burns, D. S., and Converse, A. O.Adsorption of Cellulose from Trichoderma reeseion Cellulose and Lignin of Wood Pretreated by Dilute Sulfuric Acid with Explosive Decompression, Biotechnol. Bioengr. in press.
Burns, D. S., Ooshima, H., and Converse, A. O. (1989),Applied Biochem. and Biotechnol. 20/21, 79.
Tanahashi, M., Takada, S., Aoki, T., Goto, T., Higuchi, T., and Hanai, S. (1983),Wood Research 69, 36–51.
Ooshima, H., Burns, D. S., and Converse, A. O.Changes in the Surface Area of Pretreated Wood during Enzymatic Hydrolysis, in preparation.
Stone, J. E. and Scallen, A. M. (1968),Pulp and Paper Mag. (Canada), 69.
McParland, J. J., Grethlein, H. E., and Converse A. O. (1982),Solar Energy 28, 55.
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Converse, A.O., Ooshima, H. & Burns, D.S. Kinetics of enzymatic hydrolysis of lignocellulosic materials based on surface area of cellulose accessible to enzyme and enzyme adsorption on lignin and cellulose. Appl Biochem Biotechnol 24, 67–73 (1990). https://doi.org/10.1007/BF02920234
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DOI: https://doi.org/10.1007/BF02920234