N. Jacquet, G. Maniet, C. Vanderghem, F. Delvigne, and . Richel, Application of Steam Explosion as Pretreatment on Lignocellulosic Material: A Review, Ind. Eng. Chem. Res, vol.54, pp.2593-2598, 2015.

W. H. Mason, Process and Apparatus For Disintegration of Wood and The Like, 1926.

E. T. Akinlabi, K. Anane-fenin, and D. R. Akwada, Bamboo as fuel. In: Bamboo : The Multipurpose Plant, pp.149-178, 2017.

P. Adapa, L. Tabil, and G. Schoenau, Grinding performance and physical properties of nontreated and steam exploded barley, canola, oat and wheat straw, Biomass and Bioenergy, vol.35, pp.549-561, 2011.

L. Gong, L. Huang, and Y. Zhang, Effect of steam explosion treatment on barley bran phenolic compounds and antioxidant capacity, J. Agric. Food Chem, vol.60, pp.7177-7184, 2012.

P. S. Lam, P. Y. Lam, S. Sokhansanj, X. T. Bi, and C. J. Lim, Mechanical and compositional characteristics of steam-treated Douglas fir ( Pseudotsuga menziesii L . ) during pelletization, Biomass and Bioenergy, vol.56, pp.116-126, 2013.

N. Mosier, C. Wyman, B. Dale, R. Elander, Y. Y. Lee et al., Features of promising technologies for pretreatment of lignocellulosic biomass, Bioresour. Technol, vol.96, pp.673-686, 2005.

W. R. Grous, A. O. Converse, and H. E. Grethlein, Effect of steam explosion pretreatment on pore size and enzymatic hydroxlysis of poplar, Enzyme Microb. Technol, vol.8, pp.274-280, 1986.

S. H. Kling, C. C. Neto, M. A. Ferrara, J. C. Torres, D. B. Magalhaes et al., Enhancement of Enzymatic Hydrolysis of Sugar Cane Bagasse by Steam Explosion Pretreatment, Biotechnol. Bioeng. XXIX, pp.1035-1039, 1987.

I. Ballesteros, J. M. Oliva, A. A. Navaro, A. González, J. Carrasco et al., Effect of Chip Size on Steam Explosion Pretreatment of Softwood, Appl. Biochem. Biotechnol, vol.84, pp.97-110, 2000.

L. Kumar, R. Chandra, and J. Saddler, Influence of Steam Pretreatment Severity on PostTreatments Used to Enhance the Enzymatic Hydrolysis of Pretreated Softwoods at Low Enzyme Loadings, Biotechnol. Bioeng, vol.108, pp.2300-2311, 2011.

Z. Liu, L. Qin, F. Pang, M. Jin, B. Li et al., Effects of biomass particle size on steam explosion pretreatment performance for improving the enzyme digestibility of corn stover, Ind. Crop. Prod, vol.44, pp.176-184, 2013.

S. Jiang and N. Guo, The steam explosion pretreatment and enzymatic hydrolysis of wheat bran, Energy Sources, vol.38, pp.295-299, 2016.

E. Chornet and R. P. Overend, Phenomenological Kinetics and Reaction Engineering Aspects of Steam/Aqueous Treatments, Proceeding of the International Workshop on Steam Explosion Techniques: Fundamentals and Industrial Applications, pp.21-58, 1988.

L. Xiao, G. Song, and R. Sun, Hydrothermal Processing in Biorefineries: Production of Bioethanol and High Added-Value Compounds of Second and Third Generation Biomass, pp.45-93, 2017.

M. S. Tunc and A. R. Van-heiningen, Hemicellulose extraction of mixed southern hardwood with water at 150 ??C: Effect of time, Ind. Eng. Chem. Res, vol.47, pp.7031-7037, 2008.

I. F. Cullis, J. N. Saddler, and S. D. Mansfield, Effect of Initial Moisture Content and Chip Size on the Bioconversion Efficiency of Softwood Lignocellulosics, Biotechnol. Bioeng, vol.85, pp.413-421, 2004.

J. D. Demartini, M. Foston, X. Meng, S. Jung, R. Kumar et al., How chip size impacts steam pretreatment effectiveness for biological conversion of poplar wood into fermentable sugars, Biotechnol. Biofuels, vol.8, pp.1-16, 2015.

S. Monavari, M. Galbe, and G. Zacchi, Impact of impregnation time and chip size on sugar yield in pretreatment of softwood for ethanol production, Bioresour. Technol, vol.100, pp.6312-6316, 2009.

, Agreste Lorraine: La récolte de bois récoltés en Lorraine en 2014, 2015.

, Institut Technologique FCBA (Forêt Cellulose Bois-construction Ameublement): Mémento FCBA, 2016.

N. Kirikyali and I. F. Connerton, Xylan degrading enzymes from fungal sources, J. Proteomics Enzymol, vol.4, pp.1-11, 2015.

L. Venkateswar-rao, J. K. Goli, J. Gentela, and S. Koti, Bioconversion of lignocellulosic biomass to xylitol: An overview, 2015.

D. Fengel and G. Wegener, Wood: chemistry, ultrastructure, reactions, 1989.

A. Demirbas, Biofuels from beech wood via thermochemicals conversion methods. Energy Sources, Part A Recover, Util. Environ. Eff, vol.32, pp.346-354, 2010.

U. C. Yildiz, S. Yildiz, and E. D. Gezer, Mechanical and chemical behavior of beech wood modified by heat, Wood Fiber Sci, vol.37, pp.456-461, 2005.

R. Bodirlau, C. Teaca, and I. Spiridon, Chemical modification of beech wood: Effect on thermal stability, BioResources, vol.3, pp.789-800, 2008.

M. Heitz, E. Capek-ménard, P. G. Koeberle, J. Gagné, E. Chornet et al., Fractionation of Populus tremuloides at the pilot plant scale: Optimization of steam pretreatment conditions using the STAKE II technology, Bioresour. Technol, vol.35, pp.23-32, 1991.

T. P. Schultz, C. J. Biermann, and G. D. Mcginnins, Steam explosion of mixed hardwoods chips as a biomass pretreatment, Ind. Eng. Prod. Res. Dev, vol.22, pp.344-348, 1983.

T. P. Schultz, M. Curry-templeton, C. J. Biermann, and G. D. Mcginnis, Steam Explosion of Mixed Hardwood Chips, Rice Hulls, Corn Stalks, and Sugar Cane Bagasse, J. Agric. Food Chem, vol.32, pp.1166-1172, 1984.

D. Nabarlazt, X. Farriol, and D. Montane, Kinetic Modeling of the Autohydrolysis of Lignocellulosic Biomass for the Production of Hemicellulose-Derived Oligosaccharide, Ind. Eng. Chem. Res, vol.43, pp.4124-4131, 2004.

R. B. Stoffel, P. V. Neves, F. E. Felissia, L. P. Ramos, L. M. Gassa et al., Hemicellulose extraction from slash pine sawdust by steam explosion with sulfuric acid, Biomass and Bioenergy, vol.107, pp.93-101, 2017.

P. S. Lam, P. Y. Lam, S. Sokhansanj, C. J. Lim, X. T. Bi et al., Steam explosion of oil palm residues for the production of durable pellets, Appl. Energy, vol.141, pp.160-166, 2015.

M. Cantarella, L. Cantarella, A. Gallifuoco, A. S. Alfani, and F. , Effect of Inhibitors Released during Steam-Explosion Treatment of Poplar Wood on Subsequent Enzymatic Hydrolysis and SSF, Biotechnol. Prog, vol.20, pp.200-206, 2004.