A. Sluiter, R. Ruiz, C. Scarlata, J. Sluiter, A. Templeton et al., Determination of Extractives in Biomass, Laboratory Analytical Procedure (LAP, 2008.

N. Abatzoglou, E. Chornet, K. Belkacemi, and R. P. Overend, Phenomenological kinetics of complex systems: the development of a generalized severity parameter and its application to lignocellulosics fractionation, Chem. Eng. Sci, vol.47, pp.1109-1122, 1992.

R. E. Abraham, C. J. Barrow, and M. Puri, Relationship to reducing sugar production and scanning electron microscope structure to pretreated hemp hurd biomass (Cannabis sativa), Biomass and Bioenergy, vol.58, pp.180-187, 2013.

H. B. Aditiya, T. M. Mahlia, W. T. Chong, H. Nur, and A. H. Sebayang, Second generation bioethanol production: A critical review, Renew. Sustain. Energy Rev, vol.66, pp.631-653, 2016.

, FD U44-162 -Amendements organiques et supports de culture -Caractérisation de la matière organique par fractionnement biochimique et estimation de sa stabilité biologique, AFNOR, 2016.

, NF EN 13039 -Amendements du sol et supports de culture -Détermination de la matière organique et des cendres, AFNOR, 2011.

, NF EN 13040 -Amendements organiques et supports de culture -Préparation des échantillons pour les essais physiques et chimiques, détermination de la teneur en matière sèche, du taux d'humidité et de la masse volumique compactée en laboratoire, AFNOR, 2007.

V. B. Agbor, N. Cicek, R. Sparling, A. Berlin, and D. B. Levin, Biomass pretreatment: Fundamentals toward application, Biotechnol. Adv, vol.29, pp.675-685, 2011.

G. M. Aita and M. Kim, Pretreatment technologies for the conversion of lignocellulosic materials to bioethanol, ACS Symp. Ser, vol.1058, pp.117-145, 2010.

E. Albers and C. Larsson, A comparison of stress tolerance in YPD and industrial lignocellulose-based medium among industrial and laboratory yeast strains, J. Ind. Microbiol. Biotechnol, vol.36, pp.1085-1091, 2009.

J. R. Almeida, M. Bertilsson, M. F. Gorwa-grauslund, S. Gorsich, and G. Lidén, Metabolic effects of furaldehydes and impacts on biotechnological processes, Appl. Microbiol. Biotechnol, vol.82, pp.625-638, 2009.

D. M. Alonso, J. Q. Bond, and J. A. Dumesic, Catalytic conversion of biomass to biofuels, Green Chem, vol.12, p.1493, 2010.

E. Alonso, The role of supercritical fluids in the fractionation pretreatments of a wheat bran-based biorefinery, J. Supercrit. Fluids, vol.133, pp.603-614, 2018.

E. F. Alves, S. K. Bose, R. C. Francis, J. L. Colodette, M. Iakovlev et al., Carbohydrate composition of eucalyptus, bagasse and bamboo by a combination of methods, Carbohydr. Polym, vol.82, pp.1097-1101, 2010.

P. Alvira, M. Ballesteros, and M. J. Negro, Progress on Enzymatic Saccharification Technologies for Biofuels Production, Biofuel Technologies: Recent Developments, pp.1-25, 2013.

P. Alvira, E. Toms-pej, M. Ballesteros, and M. J. Negro, Pretreatment technologies for an efficient bioethanol production process based on enzymatic hydrolysis: A review, Bioresour. Technol, vol.101, pp.4851-4861, 2010.

S. Amaducci, A. Zatta, F. Pelatti, and G. Venturi, Influence of agronomic factors on yield and quality of hemp (Cannabis sativa L.) fibre and implication for an innovative production system, F. Crop. Res, pp.161-169, 2008.

E. Amillastre, Amélioration de la robustesse de souches de levures aux stress technologiques par une stratégie de génie microbiologique. Application à la production industrielle de bio-éthanol à partir de matières premières agricoles, 2012.

N. Amini, V. S. Haritos, and A. Tanksale, Microwave assisted pretreatment of eucalyptus sawdust enhances enzymatic saccharification and maximizes fermentable sugar yield, Renew. Energy, vol.127, pp.653-660, 2018.

N. Aro, T. Pakula, and M. Penttilä, Transcriptional regulation of plant cell wall degradation by filamentous fungi, FEMS Microbiol. Rev, vol.29, pp.719-739, 2005.

U. Asghar, M. Irfan, M. Iram, Z. Huma, R. Nelofer et al., Effect of alkaline pretreatment on delignification of wheat straw, Nat. Prod. Res, vol.29, pp.125-131, 2015.

T. Auxenfans, D. Crônier, B. Chabbert, and G. Paës, Understanding the structural and chemical changes of plant biomass following steam explosion pretreatment, Biotechnol. Biofuels, vol.10, pp.1-16, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01602522

T. Auxenfans, D. Crônier, B. Chabbert, G. Paës, I. P. Wood et al., Steam explosion of oilseed rape straw: Establishing key determinants of saccharification efficiency, Biotechnol. Biofuels, vol.162, pp.175-183, 2017.

S. A. Bahrani, Modification des propriétés physico-chimiques de l'amidon par procédés hydrothermiques : Contribution à l'étude des transferts couplés chaleur-masse, 2013.

S. A. Bahrani, C. Loisel, J. Y. Monteau, S. A. Rezzoug, and Z. Maache-rezzoug, Estimation of Effective Moisture Diffusivity in Starchy Materials Following Hydrothermal Treatments. Defect Diffus. Forum 312-315, pp.364-369, 2011.

F. W. Bai, W. A. Anderson, and M. Moo-young, Ethanol fermentation technologies from sugar and starch feedstocks, Biotechnol. Adv, vol.26, pp.89-105, 2008.

F. W. Bai, L. J. Chen, W. A. Anderson, and M. Moo-young, Parameter oscillations in a very high gravity medium continuous ethanol fermentation and their attenuation on a multistage packed column bioreactor system, Biotechnol. Bioeng, vol.88, pp.558-566, 2004.

P. Bajpai, Pretreatment of Lignocellulosic Biomass for Biofuel Production, 2016.

V. Balan, B. Bals, S. P. Chundawat, D. Marshall, and B. E. Dale, Lignocellulosic Biomass Pretreatment Using AFEX, Methods in Molecular Biology, pp.61-77, 2009.

M. Balat, Production of bioethanol from lignocellulosic materials via the biochemical pathway: A review, Energy Convers. Manag, vol.52, pp.858-875, 2011.

D. Ballerini, Les biocarburants : répondre aux défis énergétiques et environnementaux des transports, TECHNIP, 2011.

I. Ballesteros, J. M. Oliva, A. A. Navarro, A. González, J. Carrasco et al., Effect of Chip Size on Steam Explosion Pretreatment of Softwood, Appl. Biochem. Biotechnol, vol.84, issue.86, 2000.

M. Ballesteros, M. J. Negro, P. Manzanares, I. Ballesteros, F. Saez et al., Fractionation of Cynara cardunculus (Cardoon) Biomass by Dilute-Acid Pretreatment, Appl. Biochem. Biotechnol, vol.105, 2003.

B. Bals, C. Wedding, V. Balan, E. Sendich, and B. Dale, Evaluating the impact of ammonia fiber expansion (AFEX) pretreatment conditions on the cost of ethanol production, Bioresour. Technol, vol.102, pp.1277-1283, 2011.

D. N. Barman, M. A. Haque, T. H. Kang, G. H. Kim, T. Y. Kim et al., Effect of mild alkali pretreatment on structural changes of reed (Phragmites communis Trinius) straw, Environ. Technol. (United Kingdom), vol.35, pp.232-241, 2014.

Z. Barta, J. M. Oliva, I. Ballesteros, D. Dienes, M. Ballesteros et al., Refining hemp hurds into fermentable sugars or ethanol, Chem. Biochem. Eng. Q, vol.24, pp.331-339, 2010.

S. Bassil, Etude de la répartition structurale des acides férulique et p-coumarique dans la chènevotte et la poudre organique de chanvre (Cannabis sativa) Exploration des voies de fractionnement pour l'obtention d'extraits à valeur ajoutée, 2015.

G. T. Beckham, J. F. Matthews, Y. J. Bomble, L. Bu, W. S. Adney et al., Identification of amino acids responsible for processivity in a family 1 carbohydrate-binding module from a fungal cellulase, J. Phys. Chem. B, vol.114, pp.1447-1453, 2010.

S. Belkhir, A. Koubaa, A. Khadhri, M. Ksontini, and S. Smiti, Variations in the morphological characteristics of Stipa tenacissima fiber: The case of Tunisia, Ind. Crops Prod, vol.37, pp.200-206, 2012.

N. Belmokhtar, Etude de la saccharification enzymatique du miscanthus par des cocktails cellulolytiques de Trichoderma reesei, 2012.

Y. Benjamin, H. Cheng, and J. F. Görgens, Optimization of Dilute Sulfuric Acid Pretreatment to Maximize Combined Sugar Yield from Sugarcane Bagasse for Ethanol Production, Appl. Biochem. Biotechnol, vol.172, pp.610-630, 2014.

A. W. Bhutto, K. Qureshi, K. Harijan, R. Abro, T. Abbas et al., Insight into progress in pre-treatment of lignocellulosic biomass, Energy, vol.122, pp.724-745, 2017.

A. B. Bjerre, A. B. Olesen, T. Fernqvist, A. Plöger, and A. S. Schmidt, Pretreatment of wheat straw using combined wet oxidation and alkaline hydrolysis resulting in convertible cellulose and hemicellulose, Biotechnol. Bioeng, vol.49, pp.568-577, 1996.

N. A. Boakye-boaten, S. Xiu, A. Shahbazi, L. Wang, R. Li et al., Effects of fertilizer application and dry/wet processing of Miscanthus x giganteus on bioethanol production, Bioresour. Technol, vol.204, pp.98-105, 2016.

K. E. Borchani, C. Carrot, and M. Jaziri, Untreated and alkali treated fibers from Alfa stem: effect of alkali treatment on structural, morphological and thermal features, Cellulose, vol.22, pp.1577-1589, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01174192

J. ;. Boucher and . Université-de-grenoble, Etude des possibilités de production d ' éthanol hémicellulosique dans le cadre d ' une bioraffinerie, 2014.

B. Bouiri and M. Amrani, Elemental chlorine-free bleaching halfa pulp, J. Ind. Eng. Chem, vol.16, pp.587-592, 2010.

P. Bouloc, Le chanvre industriel: production et utilisations, France Agr, 2006.

H. Boussarsar, B. Rogé, and M. Mathlouthi, Optimization of sugarcane bagasse conversion by hydrothermal treatment for the recovery of xylose, Bioresour. Technol, vol.100, pp.6537-6542, 2009.

P. Brazdausks, A. Paze, J. Rizhikovs, M. Puke, K. Meile et al., Effect of aluminium sulphate-catalysed hydrolysis process on furfural yield and cellulose degradation of Cannabis sativa L. shives, Biomass and Bioenergy, vol.89, pp.98-104, 2015.

G. Brodeur, E. Yau, K. Badal, J. Collier, K. B. Ramachandran et al., Chemical and physicochemical pretreatment of lignocellulosic biomass: A review, Enzyme Res, 2011.

N. Brosse, P. Sannigrahi, and A. Ragauskas, Pretreatment of Miscanthus x giganteus Using the Ethanol Organosolv Process for Ethanol Production, Ind. Eng. Chem. Res. ACS ASAP, pp.8328-8334, 2009.

S. Brunauer, P. H. Emmett, and E. Teller, Adsorption of Gases in Multimolecular Layers, J. Am. Chem. Soc, vol.60, pp.309-319, 1938.

J. Cai, Y. He, X. Yu, S. W. Banks, Y. Yang et al., Review of physicochemical properties and analytical characterization of lignocellulosic biomass, Renew. Sustain. Energy Rev, vol.76, pp.309-322, 2017.

C. Carrasco, H. M. Baudel, J. Sendelius, T. Modig, C. Roslander et al., SO2-catalyzed steam pretreatment and fermentation of enzymatically hydrolyzed sugarcane bagasse, Enzyme Microb. Technol, vol.46, pp.64-73, 2010.

A. K. Chandel, R. K. Kapoor, A. Singh, and R. C. Kuhad, Detoxification of sugarcane bagasse hydrolysate improves ethanol production by Candida shehatae NCIM 3501, Bioresour. Technol, vol.98, pp.1947-1950, 2007.

V. S. Chang and M. T. Holtzapple, Fundamental Factors Affecting, Biomass Enzymatic Reactivity. Appl. Biochem. Biotechnol. 84, vol.86, 2000.

V. Chaturvedi and P. Verma, An overview of key pretreatment processes employed for bioconversion of lignocellulosic biomass into biofuels and value added products, 3 Biotech, vol.3, pp.415-431, 2013.

M. Chauve, Modélisation cinétique de l â? TM hydrolyse enzymatique des substrats cellulosiques, Adsorpt. J. Int. Adsorpt. Soc, 2011.

H. Chen and X. Fu, Industrial technologies for bioethanol production from lignocellulosic biomass, Renew. Sustain. Energy Rev, vol.57, pp.468-478, 2016.

H. Chen, J. Liu, X. Chang, D. Chen, Y. Xue et al., A review on the pretreatment of lignocellulose for high-value chemicals, Fuel Process. Technol, vol.160, pp.196-206, 2017.

H. Z. Chen and Z. H. Liu, Steam explosion and its combinatorial pretreatment refining technology of plant biomass to bio-based products, Biotechnol. J, vol.10, pp.866-885, 2015.

W. H. Chen, B. L. Pen, C. T. Yu, and W. S. Hwang, Pretreatment efficiency and structural characterization of rice straw by an integrated process of dilute-acid and steam explosion for bioethanol production, Bioresour. Technol, vol.102, pp.2916-2924, 2011.

W. H. Chen, Y. J. Tu, and H. K. Sheen, Disruption of sugarcane bagasse lignocellulosic structure by means of dilute sulfuric acid pretreatment with microwave-assisted heating, Appl. Energy, vol.88, pp.2726-2734, 2011.

Y. Chen, M. A. Stevens, Y. Zhu, J. Holmes, G. Moxley et al., Reducing acid in dilute acid pretreatment and the impact on enzymatic saccharification, J. Ind. Microbiol. Biotechnol, vol.39, pp.691-700, 2012.

S. Chiesa and E. Gnansounou, Use of empty fruit bunches from the oil palm for bioethanol production: A thorough comparison between dilute acid and dilute alkali pretreatment, Bioresour. Technol, vol.159, pp.355-364, 2014.

W. Choi, J. Park, J. Lee, J. Park, C. Kim et al., Optimization of NaOH-catalyzed steam pretreatment of empty fruit bunch, Biotechnol. Biofuels, vol.6, p.170, 2013.

E. Conforto, N. Joguet, P. Buisson, J. E. Vendeville, C. Chaigneau et al., An optimized methodology to analyze biopolymer capsules by environmental scanning electron microscopy, Mater. Sci. Eng. C, vol.47, pp.357-366, 2015.

C. Cormos, Renewable hydrogen production concepts from bioethanol reforming with carbon capture, Int. J. Hydrogen Energy, vol.39, pp.5597-5606, 2014.

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.

I. Cybulska, G. Brudecki, and H. Lei, Hydrothermal Pretreatment of Lignocellulosic Biomass, Green Biomass Pretreatment for Biofuels Production, 2013.

M. Dallel, Evaluation du potentiel textile des fibres d'Alfa (Stipa Tenacissima L.) : caractérisation physico-chimique de la fibre au fil, 2012.
URL : https://hal.archives-ouvertes.fr/tel-00844129

A. Damien, La biomasse énergie, Dunod, 2013.

D. Serna, L. V. Orrego-alzate, C. E. Cardona-alzate, and C. A. , Supercritical fluids as a green technology for the pretreatment of lignocellulosic biomass, Bioresour. Technol, vol.199, pp.113-120, 2016.

A. Demirba?, Biomass resource facilities and biomass conversion processing for fuels and chemicals, Energy Convers. Manag, vol.42, pp.1357-1378, 2001.

P. Dheeran and L. Reddy, Biorefining of Lignocelluloses: An Opportunity for Sustainable Biofuel Production, Biorefining of Biomass to Biofuels : Opportunities and Perception, p.1, 2017.

I. Didderen, J. Destain, and P. Thonart, Le bioéthanol de seconde génération : la production d'éthanol à partir de biomasse lignocellulosique, 2008.

S. J. Duff and W. D. Murray, Bioconversion of forest products industry waste cellulosics to fuel ethanol: A review, Bioresour. Technol, vol.55, pp.1-33, 1996.

A. Duque, P. Manzanares, I. Ballesteros, and M. Ballesteros, Steam Explosion as Lignocellulosic Biomass Pretreatment, Biomass Fractionation Technologies for a Lignocellulosic Feedstock Based Biorefinery, 2016.

, European Industrial Hemp Association, Eiha.org, EIHA, 2015.

R. Eklund, M. Galbe, and G. Zacchi, The influence of SO2 and H2SO4 impregnation of willow prior to steam pretreatment, Bioresour. Technol, vol.52, p.42, 1995.

M. El-achaby, Z. Kassab, A. Barakat, and A. Aboulkas, Alfa fibers as viable sustainable source for cellulose nanocrystals extraction: Application for improving the tensile properties of biopolymer nanocomposite films, Ind. Crops Prod, vol.112, pp.499-510, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01837514

R. El-hage, L. Chrusciel, L. Desharnais, and N. Brosse, Effect of autohydrolysis of Miscanthus x giganteus on lignin structure and organosolv delignification, Bioresour. Technol, vol.101, pp.9321-9329, 2010.

A. Esteghlalian, A. G. Hashimoto, J. J. Fenske, and M. H. Penner, Modeling and optimization of the dilute-sulfuric-acid pretreatment of corn stover, poplar and switchgrass, Bioresour. Technol, vol.59, pp.81606-81615, 1997.

A. Faik, Plant Cell Wall Structure-Pretreatment" the Critical Relationship in Biomass Conversion to Fermentable Sugars, Green Biomass Pretreatment for Biofuels Production, 2013.

X. Fan, G. Cheng, H. Zhang, M. Li, S. Wang et al., Effects of acid impregnated steam explosion process on xylose recovery and enzymatic conversion of cellulose in corncob, Carbohydr. Polym, vol.114, pp.21-26, 2014.

J. Faulon, G. A. Carlson, and P. G. Hatcher, A three-dimensional model for lignocellulose from gymnospermous wood, Org. Geochem, vol.21, pp.1169-1179, 1994.

L. Feng and Z. Chen, Research progress on dissolution and functional modification of cellulose in ionic liquids, J. Mol. Liq, vol.142, pp.1-5, 2008.

M. Galbe and G. Zacchi, Pretreatment: The key to efficient utilization of lignocellulosic materials, Biomass and Bioenergy, vol.46, pp.70-78, 2012.

M. Galbe and G. Zacchi, Pretreatment of lignocellulosic materials for efficient bioethanol production, Adv. Biochem. Eng. Biotechnol, vol.108, pp.41-65, 2007.

S. Gandolfi, G. Ottolina, R. Consonni, S. Riva, and I. Patel, Fractionation of hemp hurds by organosolv pretreatment and its effect on production of lignin and sugars, ChemSusChem, vol.7, pp.1991-1999, 2014.

S. Gandolfi, G. Ottolina, S. Riva, G. P. Fantoni, and I. Patel, Complete chemical analysis of carmagnola hemp hurds and structural features of its components, BioResources, vol.8, pp.2641-2656, 2013.

M. P. García-aparicio, I. Ballesteros, A. González, J. M. Oliva, M. Ballesteros et al., Effect of inhibitors released during steam-explosion pretreatment of barley straw on enzymatic hydrolysis, Appl. Biochem. Biotechnol, vol.129, pp.278-288, 2006.

A. García, M. González-alriols, and J. Labidi, Evaluation of different lignocellulosic raw materials as potential alternative feedstocks in biorefinery processes, Ind. Crops Prod, vol.53, pp.102-110, 2014.

R. Gaur, S. Soam, S. Sharma, R. P. Gupta, V. R. Bansal et al., Bench scale dilute acid pretreatment optimization for producing fermentable sugars from cotton stalk and physicochemical characterization, Ind. Crops Prod, vol.83, pp.104-112, 2016.

M. Gavahian, A. Farahnaky, and S. Sastry, Ohmic-assisted hydrodistillation: A novel method for ethanol distillation, Food Bioprod. Process, vol.98, pp.44-49, 2016.

, Changements climatiques, GIEC, 2013.

C. S. Goh, H. T. Tan, K. T. Lee, and N. Brosse, Evaluation and optimization of organosolv pretreatment using combined severity factors and response surface methodology, Biomass and Bioenergy, vol.35, pp.4025-4033, 2011.

V. Gomis, A. Font, R. Pedraza, and M. D. Saquete, Isobaric vapor-liquid and vapor-liquidliquid equilibrium data for the system water + ethanol + cyclohexane, Fluid Phase Equilib, vol.235, pp.7-10, 2005.

J. Goupy, Introduction aux plans d'expériences. Dunod, 2006.

J. Goupy, , 1934.

T. Gu, M. A. Held, and A. Faik, Supercritical CO2and ionic liquids for the pretreatment of lignocellulosic biomass in bioethanol production, Environ. Technol. (United Kingdom), vol.34, pp.1735-1749, 2013.

A. B. Guerrero, I. Ballesteros, and M. Ballesteros, Optimal conditions of acid-catalysed steam explosion pretreatment of banana lignocellulosic biomass for fermentable sugar production, J. Chem. Technol. Biotechnol, vol.92, pp.2351-2359, 2017.

V. K. Gupta and M. G. Tuohy, Biofuel technologies: Recent developments, 2014.

B. R. Hames, Biomass Compositional Analysis for Energy Applications, Biofuels, Methods in Molecular Biology, pp.145-167, 2009.

S. Hanana, A. Elloumi, V. Placet, H. Tounsi, H. Belghith et al., An efficient enzymatic-based process for the extraction of high-mechanical properties alfa fibres, Ind. Crops Prod, vol.70, pp.190-200, 2015.

A. Haryanto, S. Fernando, N. Murali, and S. Adhikari, Current status of hydrogen production techniques by steam reforming of ethanol: A review, Energy and Fuels, vol.19, pp.2098-2106, 2005.

S. S. Hassan, G. A. Williams, and A. K. Jaiswal, Emerging technologies for the pretreatment of lignocellulosic biomass, Bioresour. Technol, vol.262, pp.310-318, 2018.

A. T. Hendriks and G. Zeeman, Pretreatments to enhance the digestibility of lignocellulosic biomass, Bioresour. Technol, vol.100, pp.10-18, 2009.

E. M. Hodgson, D. J. Nowakowski, I. Shield, A. Riche, A. V. Bridgwater et al., Variation in Miscanthus chemical composition and implications for conversion by pyrolysis and thermo-chemical bio-refining for fuels and chemicals, Bioresour. Technol, vol.102, pp.3411-3418, 2011.

T. Hou, S. Zhang, Y. Chen, D. Wang, and W. Cai, Hydrogen production from ethanol reforming : Catalysts and reaction mechanism, Renew. Sustain. Energy Rev, vol.44, pp.132-148, 2015.

Z. Hu and Z. Wen, Enhancing enzymatic digestibility of switchgrass by microwave-assisted alkali pretreatment, Biochem. Eng. J, vol.38, pp.369-378, 2008.

H. Huang, S. Ramaswamy, U. W. Tschirner, and B. V. Ramarao, A review of separation technologies in current and future biorefineries, Sep. Purif. Technol, vol.62, pp.1-21, 2008.

, CO2 emissions from fuel combustion: overview, IEA, 2017.

, Energy Policies of IEA Countries_France_2016_Review, IEA, 2017.

, Maroc 2014 -Politiques énergétiques hors des pays de l'AIE, 2014.

F. H. Isikgor and C. R. Becer, Lignocellulosic biomass: a sustainable platform for the production of bio-based chemicals and polymers, Polym. Chem, vol.6, pp.4497-4559, 2015.

S. K. Jang, H. Y. Kim, H. S. Jeong, J. Y. Kim, H. Yeo et al., Effect of ethanol organosolv pretreatment factors on enzymatic digestibility and ethanol organosolv lignin structure from Liriodendron tulipifera in specific combined severity factors, Renew. Energy, vol.87, pp.599-606, 2016.

Y. Jin and T. W. Jeffries, Stoichiometric network constraints on xylose metabolism by recombinant Saccharomyces cerevisiae, Metab. Eng, vol.6, pp.229-238, 2004.

Y. H. Jung and K. H. Kim, Acidic Pretreatment, Pretreatment of Biomass: Processes and Technologies, 2014.

L. Juszczak, T. Fortuna, and K. Wodnicka, Characteristics of cereal starch granules surface using nitrogen adsorption, J. Food Eng, vol.54, pp.103-110, 2002.

M. M. Kabir, H. Wang, K. T. Lau, and F. Cardona, Effects of chemical treatments on hemp fibre structure, Appl. Surf. Sci, vol.276, pp.13-23, 2013.

K. Karimi, M. Shafie, and R. Kumar, Progress in Physical and Chemical Pretreatment of Lignocellulosic Biomass, Biofuel Technologies: Recent Developments, pp.1-534, 2014.

K. Karimi and M. J. Taherzadeh, A critical review on analysis in pretreatment of lignocelluloses: Degree of polymerization, adsorption/desorption, and accessibility, Bioresour. Technol, vol.203, pp.348-356, 2016.

M. Karus, European hemp industry 2001: Cultivation, processing, and product lines, 2002.

R. Kataria, A. Mol, E. Schulten, A. Happel, and S. I. Mussatto, Bench scale steam explosion pretreatment of acid impregnated elephant grass biomass and its impacts on biomass composition, structure and hydrolysis, Ind. Crops Prod, vol.106, pp.48-58, 2017.

M. R. Khelifa, N. Leklou, T. Bellal, R. L. Hebert, and B. A. Ledesert, Is alfa a vegetal fiber suitable for making green reinforced structure concrete?, Eur. J. Environ. Civ. Eng. 1-21, 2016.

J. S. Kim, Y. Y. Lee, and T. H. Kim, A review on alkaline pretreatment technology for bioconversion of lignocellulosic biomass, Bioresour. Technol, vol.199, pp.42-48, 2016.

S. Kim and M. T. Holtzapple, Delignification kinetics of corn stover in lime pretreatment, Bioresour. Technol, vol.97, pp.778-785, 2006.

E. Klimiuk, T. Pokój, W. Budzy?ski, and B. Dubis, Theoretical and observed biogas production from plant biomass of different fibre contents, Bioresour. Technol, vol.101, pp.9527-9535, 2010.

E. Köhler, Book of Medicinal Plants. Colorado, United states, 1898.

A. K. Kumar and S. Sharma, Recent updates on different methods of pretreatment of lignocellulosic feedstocks: a review, 2017.

P. Kumar, D. M. Barrett, M. J. Delwiche, and P. Stroeve, Methods for Pretreatment of Lignocellulosic Biomass for Efficient Hydrolysis and Biofuel Production, Ind. Eng. Chem. (Analytical Ed, vol.48, pp.3713-3729, 2009.

R. Kumar, G. Mago, V. Balan, and C. E. Wyman, Physical and chemical characterizations of corn stover and poplar solids resulting from leading pretreatment technologies, Bioresour. Technol, vol.100, pp.3948-3962, 2009.

R. Kumar, M. Tabatabaei, K. Karimi, and I. Sárvári-horváth, Recent updates on lignocellulosic biomass derived ethanol -A review, Biofuel Res. J, vol.3, pp.347-356, 2016.

R. Kumar and C. E. Wyman, Cellulase adsorption and relationship to features of corn stover solids produced by leading pretreatments, Biotechnol. Bioeng, vol.103, pp.252-267, 2009.

S. Kumar, N. Singh, and R. Prasad, Anhydrous ethanol: A renewable source, Renew. Sustain. Energy Rev, vol.14, pp.1830-1844, 2010.

D. Kumari and R. Singh, Pretreatment of lignocellulosic wastes for biofuel production: A critical review, Renew. Sustain. Energy Rev, vol.90, pp.877-891, 2018.

L. W. Lai and A. Idris, Comparison of steam-alkali-chemical and microwave-alkali pretreatment for enhancing the enzymatic saccharification of oil palm trunk, Renew. Energy, vol.99, pp.738-746, 2016.

S. Larsson, E. Palmqvist, B. Hahn-hägerdal, C. Tengborg, K. Stenberg et al., The generation of fermentation inhibitors during dilute acid hydrolysis of softwood, Enzyme Microb. Technol, vol.24, issue.98, p.101, 1999.

C. Lee, Y. Zheng, and J. S. Vandergheynst, Effects of pretreatment conditions and postpretreatment washing on ethanol production from dilute acid pretreated rice straw, 2015.

. Eng, , vol.137, pp.36-42

C. Li, G. Cheng, V. Balan, M. S. Kent, M. Ong et al., Influence of physicochemical changes on enzymatic digestibility of ionic liquid and AFEX pretreated corn stover, Bioresour. Technol, vol.102, pp.6928-6936, 2011.

C. Li, B. Knierim, C. Manisseri, R. Arora, H. V. Scheller et al., Comparison of dilute acid and ionic liquid pretreatment of switchgrass: Biomass recalcitrance, delignification and enzymatic saccharification, Bioresour. Technol, vol.101, pp.4900-4906, 2010.

Y. Li, X. Liu, S. Zhang, Y. Yao, and X. Yao, Dissolving process of a cellulose bunch in ionic liquids : a molecular dynamics study ?, Phys. Chem. Chem. Phys, vol.17, pp.17894-17905, 2015.

Y. Lin and S. Tanaka, Ethanol fermentation from biomass resources: current state and prospects, Appl. Microbiol. Biotechnol, vol.69, pp.627-642, 2006.

R. Linder, Les plans d'expériences : un outil indispensable à l'expérimentateur, 2005.

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

H. Lü, M. Ren, M. Zhang, and Y. Chen, Pretreatment of Corn Stover Using Supercritical CO2 with Water-Ethanol as Co-solvent, Biotechnol. Bioeng, vol.21, issue.13, p.60508, 2013.

C. Luo, D. L. Brink, and H. W. Blanch, Identification of potential fermentation inhibitors in conversion of hybrid poplar hydrolyzate to ethanol, Biomass and Bioenergy, vol.22, pp.125-138, 2002.

Z. Maache-rezzoug, G. Pierre, A. Nouviaire, T. Maugard, and S. A. Rezzoug, Optimizing thermomechanical pretreatment conditions to enhance enzymatic hydrolysis of wheat straw by response surface methodology, Biomass and Bioenergy, vol.35, pp.3129-3138, 2011.

Z. Maache-rezzoug, T. Maugard, Z. J. Qiuyu, A. Nouviaire, and R. Sid-ahmed, Combined steam-explosion toward vacuum and dilute-acid spraying of wheat straw. Impact of severity factor on enzymatic hydrolysis, Renew. Energy, vol.78, pp.516-526, 2015.

Z. Marrakchi, R. Khiari, H. Oueslati, E. Mauret, and F. Mhenni, Pulping and papermaking properties of Tunisian Alfa stems (Stipa tenacissima)-Effects of refining process, Ind. Crops Prod, vol.34, pp.1572-1582, 2011.

, dilute acid and ammonia fiber explosion pretreatment for cellulosic ethanol production, Bioresour. Technol, vol.199, pp.13-20

S. Mcintosh, Z. Zhang, J. Palmer, H. Wong, W. O. Doherty et al., Pilotscale cellulosic ethanol production using eucalyptus biomass pre-treated by dilute acid and steam explosion, Biofuels, Bioprod. Biorefining, 2016.

J. D. Mcmillan, Processes for Pretreating Lignocellulosic Biomass: A Review, 1992.

X. Z. Meng, T. Wells, Q. N. Sun, F. Huang, and A. J. Ragauskas, Insights into the effect of dilute acid, hot water or alkaline pretreatment on the cellulose accessible surface area and the overall porosity of Populus, Green Chem, vol.17, pp.4239-4246, 2015.

V. Menon and M. Rao, Trends in bioconversion of lignocellulose: Biofuels, platform chemicals & biorefinery concept, Prog. Energy Combust. Sci, vol.38, pp.522-550, 2012.

S. T. Merino and J. Cherry, Progress and Challenges in Enzyme Development for Biomass Utilization, Biofuels, vol.108, pp.95-120, 2007.

K. Mirahmadi, M. Mohseni-kabir, A. Jeihanipour, K. Karimi, and M. J. Taherzadeh, Alkaline pretreatment of spruce and birch to improve bioethanol and biogas production, BioResources, vol.5, pp.928-938, 2010.

A. A. Modenbach and S. E. Nokes, Enzymatic hydrolysis of biomass at high-solids loadings -A review, Biomass and Bioenergy, vol.56, pp.526-544, 2013.

F. Monlau, A. Barakat, E. Trably, C. Dumas, J. P. Steyer et al., Lignocellulosic materials into biohydrogen and biomethane: Impact of structural features and pretreatment, Crit. Rev. Environ. Sci. Technol, vol.43, pp.260-322, 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.

G. Moxley, Z. Zhu, and Y. H. Zhang, Efficient sugar release by the cellulose solventbased lignocellulose fractionation technology and enzymatic cellulose hydrolysis, J. Agric. Food Chem, vol.56, pp.7885-7890, 2008.

S. Mutturi, B. Palmqvist, and G. Lidén, Developments in bioethanol fuel-focused biorefineries, Advances in Biorefineries: Biomass and Waste Supply Chain Exploitation, pp.259-302, 2014.

N. Narayanaswamy, A. Faik, D. J. Goetz, and T. Gu, Supercritical carbon dioxide pretreatment of corn stover and switchgrass for lignocellulosic ethanol production, Bioresour. Technol, vol.102, pp.6995-7000, 2011.

M. J. Negro, P. Manzanares, I. Ballesteros, J. M. Oliva, A. Cabañas et al., Hydrothermal Pretreatment Conditions to Enhance Ethanol Production from Poplar Biomass, Appl. Biochem. Biotechnol, vol.105, pp.87-100, 2003.

C. K. Nitsos, K. A. Matis, and K. S. Triantafyllidis, Optimization of Hydrothermal Pretreatment of Lignocellulosic Biomass in the Bioethanol Production Process, ChemSusChem, vol.6, pp.110-122, 2013.

M. S. Noori and K. Karimi, Detailed study of efficient ethanol production from elmwood by alkali pretreatment, Biochem. Eng. J, vol.105, pp.197-204, 2016.

K. Öhgren, M. Galbe, and G. Zacchi, Optimization of steam pretreatment of SO2-impregnated corn stover for fuel ethanol production, Appl. Biochem. Biotechnol. -Part A Enzym. Eng. Biotechnol, vol.124, pp.1055-1067, 2005.

R. P. Overend, E. Chornet, and J. A. Gascoigne, Fractionation of Lignocellulosics by Steam-Aqueous Pretreatments [and Discussion, Philos. Trans. R. Soc. A Math. Phys. Eng. Sci, vol.321, pp.523-536, 1987.

E. Palmqvist and B. Hahn-hägerdal, Fermentation of lignocellulosic hydrolysates. II: inhibitors and mechanisms of inhibition, Bioresour. Technol, vol.74, pp.25-33, 2000.

M. G. Papatheofanous, E. Billa, D. P. Koullas, B. Monties, and E. G. Koukios, Two-stage acid-catalyzed fractionation of lignocellulosic biomass in aqueous ethanol systems at low temperatures, Bioresour. Technol, vol.54, pp.305-310, 1995.

M. Pedersen and A. S. Meyer, Lignocellulose pretreatment severity -relating pH to biomatrix opening, N. Biotechnol, vol.27, 2010.

S. C. Pereira, L. Maehara, C. M. Machado, and C. S. Farinas, Physical-chemicalmorphological characterization of the whole sugarcane lignocellulosic biomass used for 2G ethanol production by spectroscopy and microscopy techniques, Renew. Energy, vol.87, pp.607-617, 2016.

G. Pierre, Z. Maache-rezzoug, F. Sannier, S. A. Rezzoug, and T. Maugard, Highperformance hydrolysis of wheat straw using cellulase and thermomechanical pretreatment, Process Biochem, vol.46, pp.2194-2200, 2011.

A. Pinkert, K. N. Marsh, S. Pang, and M. P. Staiger, Ionic Liquids and Their Interaction with Cellulose, Chem. Rev, vol.109, pp.6712-6728, 2009.

S. Prasad, A. Singh, and H. C. Joshi, Ethanol as an alternative fuel from agricultural, industrial and urban residues, Resour. Conserv. Recycl, vol.50, pp.1-39, 2007.

E. Privas, Elaboration et caractérisation, 2013.

E. Pye and J. Lora, The Alcell process: a proven alternative to Kraft pulping, Tappi J, pp.113-118, 1991.

S. C. Rabelo, H. Carrere, R. Maciel-filho, and A. C. Costa, Production of bioethanol, methane and heat from sugarcane bagasse in a biorefinery concept, Bioresour. Technol, vol.102, pp.7887-7895, 2011.

H. Rabemanolontsoa and S. Saka, Various pretreatments of lignocellulosics, Bioresour. Technol, vol.199, pp.83-91, 2016.

A. J. Ragauskas, M. Nagy, D. H. Kim, C. A. Eckert, J. P. Hallett et al., From wood to fuels: Integrating biofuels and pulp production, Ind. Biotechnol, vol.2, pp.55-65, 2006.

M. Rastogi and S. Shrivastava, Recent advances in second generation bioethanol production: An insight to pretreatment, saccharification and fermentation processes, Renew. Sustain. Energy Rev, vol.80, pp.330-340, 2017.

R. Rawat, B. K. Kumbhar, and L. Tewari, Optimization of alkali pretreatment for bioconversion of poplar ( Populus deltoides ) biomass into fermentable sugars using response surface methodology, Ind. Crop. Prod, vol.44, pp.220-226, 2013.

M. S. Rehman, N. Rashid, A. Saif, T. Mahmood, and J. I. Han, Potential of bioenergy production from industrial hemp (Cannabis sativa): Pakistan perspective, Renew. Sustain. Energy Rev, vol.18, pp.154-164, 2013.

C. A. Rezende, M. A. Lima, . De, P. Maziero, and E. Ribeiro, Chemical and morphological characterization of sugarcane bagasse submitted to a delignification process for enhanced enzymatic digestibility, Biotechnol. Biofuels, vol.4, p.54, 2011.

C. Sánchez, Lignocellulosic residues: Biodegradation and bioconversion by fungi, Biotechnol. Adv, vol.27, pp.185-194, 2009.

A. Sangnark and A. Noomhorm, Effect of particle sizes on functional properties of dietary fibre prepared from sugarcane bagasse, Food Chem, vol.80, pp.257-258, 2003.

A. A. Saqib and P. J. Whitney, Differential behaviour of the dinitrosalicylic acid (DNS) reagent towards mono-and di-saccharide sugars, Biomass and Bioenergy, vol.35, pp.4748-4750, 2011.

P. Sassner, C. G. Mårtensson, M. Galbe, and G. Zacchi, Steam pretreatment of H2SO4-impregnated Salix for the production of bioethanol, Bioresour. Technol, vol.99, pp.137-145, 2008.

L. Segal, J. J. Creely, A. E. Martin, and C. M. Conrad, An Empirical Method for Estimating the Degree of Crystallinity of Native Cellulose Using the X-Ray Diffractometer, Text. Res. J, vol.29, pp.786-794, 1959.

M. J. Selig, S. Viamajala, S. R. Decker, M. P. Tucker, M. E. Himmel et al., Deposition of lignin droplets produced during dilute acid pretreatment of maize stems retards enzymatic hydrolysis of cellulose, Biotechnol. Prog, vol.23, pp.1333-1339, 2007.

S. Sharma, R. Kumar, R. Gaur, R. Agrawal, R. P. Gupta et al., Pilot scale study on steam explosion and mass balance for higher sugar recovery from rice straw, Bioresour. Technol, vol.175, pp.350-357, 2015.

E. Shirkavand, S. Baroutian, D. J. Gapes, and B. R. Young, Combination of fungal and physicochemical processes for lignocellulosic biomass pretreatment -A review, Renew. Sustain. Energy Rev, vol.54, pp.217-234, 2016.

T. A. Silva, H. D. Zamora, L. H. Varão, N. S. Prado, M. A. Baffi et al., Effect of Steam Explosion Pretreatment Catalysed by Organic Acid and Alkali on Chemical and Structural Properties and Enzymatic Hydrolysis of Sugarcane Bagasse, Waste and Biomass Valorization, vol.0, pp.1-11, 2017.

R. A. Silverstein, Y. Chen, R. R. Sharma-shivappa, M. D. Boyette, and J. Osborne, A comparison of chemical pretreatment methods for improving saccharification of cotton stalks, Bioresour. Technol, vol.98, pp.3000-3011, 2007.

R. Sindhu, M. Kuttiraja, P. Binod, R. K. Sukumaran, and A. Pandey, Physicochemical characterization of alkali pretreated sugarcane tops and optimization of enzymatic saccharification using response surface methodology, Renew. Energy, vol.62, pp.362-368, 2014.

R. Sindhu, A. Pandey, and P. Binod, Alkaline Treatment, 2014.

R. Singh, A. Shukla, S. Tiwari, and M. Srivastava, A review on delignification of lignocellulosic biomass for enhancement of ethanol production potential, Renew. Sustain. Energy Rev, vol.32, pp.713-728, 2014.

Y. D. Singh, P. Mahanta, and U. Bora, Comprehensive characterization of lignocellulosic biomass through proximate, ultimate and compositional analysis for bioenergy production, Renew. Energy, vol.103, pp.490-500, 2017.

P. Singh-nee-nigam and A. Pandey, Pre-treatment of Agro-Industrial Residues, in: Biotechnology for Agro-Industrial Residues Utilisation, pp.13-33, 2009.

A. Sluiter, B. Hames, R. Ruiz, C. Scarlata, J. Sluiter et al., Determination of Structural Carbohydrates and Lignin in Biomass Determination of Structural Carbohydrates and Lignin in Biomass, 2011.

. Sluiter, B. Hames, R. Ruiz, C. Scarlata, J. Sluiter et al., Determination of Sugars , Byproducts , and Degradation Products in Liquid Fraction Process Samples Laboratory Analytical Procedure ( LAP ) Issue Date : 12 / 08 / 2006 Determination of Sugars , Byproducts , and Degradation Products in Liquid Fraction Proce, Lab. Anal. Proced, 2008.

J. B. Sluiter, R. O. Ruiz, C. J. Scarlata, A. D. Sluiter, and D. W. Templeton, Compositional analysis of lignocellulosic feedstocks. 1. Review and description of methods, J. Agric. Food Chem, vol.58, pp.9043-9053, 2010.

P. F. Stanbury, A. Whitaker, and S. J. Hall, College teacher), 1995. Principles of fermentation technology

N. Stevulova, J. Cigasova, A. Estokova, E. Terpakova, A. Geffert et al., Properties characterization of chemically modified hemp hurds, Materials (Basel), vol.7, pp.8131-8150, 2014.

P. Stuart and M. El-halwagi, Integrated biorefineries: design, analysis, and optimization, 2012.

W. Sui and H. Chen, Water transfer in steam explosion process of corn stalk, Ind. Crops Prod, vol.76, pp.977-986, 2015.

R. Sun, J. M. Lawther, and W. B. Banks, Influence of alkaline pre-treatments on the cell wall components of wheat straw, Ind. Crops Prod, vol.4, issue.95, pp.25-33, 1995.

S. Sun, S. Sun, X. Cao, and R. Sun, The role of pretreatment in improving the enzymatic hydrolysis of lignocellulosic materials, Bioresour. Technol, vol.199, pp.49-58, 2016.

Y. Sun and J. Cheng, Hydrolysis of lignocellulosic materials for ethanol production : a review q, Bioresour. Technol, vol.83, pp.1-11, 2002.

Y. G. Sun, Y. L. Ma, L. Q. Wang, F. Z. Wang, Q. Q. Wu et al., Physicochemical properties of corn stalk after treatment using steamexplosion coupled with acid or alkali, Carbohydr. Polym, vol.117, pp.486-493, 2015.

F. Tabassum, M. Irfan, H. A. Shakir, and J. I. Qazi, Statistical optimization for deconstruction of poplar substrate by dilute sulfuric acid for bioethanol production, Green Chem. Lett. Rev, vol.10, pp.69-79, 2017.

M. Taherzadeh, K. Karimi, M. J. Taherzadeh, and K. Karimi, Pretreatment of Lignocellulosic Wastes to Improve Ethanol and Biogas Production: A Review, Int. J. Mol. Sci, vol.9, pp.1621-1651, 2008.

M. Takai and J. R. Colvin, Mechanism of transition between cellulose I and cellulose II during mercerization, J. Polym. Sci. Polym. Chem. Ed, vol.16, pp.1335-1342, 1978.

A. Teghammar, K. Karimi, I. Sárvári-horváth, and M. J. Taherzadeh, Enhanced biogas production from rice straw, triticale straw and softwood spruce by NMMO pretreatment, Biomass and Bioenergy, vol.36, pp.116-120, 2012.

G. S. Wang, J. W. Lee, J. Y. Zhu, and T. W. Jeffries, Dilute acid pretreatment of corncob for efficient sugar production, Appl. Biochem. Biotechnol, vol.163, pp.658-668, 2011.

K. Wang, J. Chen, S. N. Sun, and R. C. Sun, Steam Explosion, Pretreatment of Biomass: Processes and Technologies, 2014.

J. Wildschut, A. T. Smit, J. H. Reith, and W. J. Huijgen, Ethanol-based organosolv fractionation of wheat straw for the production of lignin and enzymatically digestible cellulose, Bioresour. Technol, vol.135, pp.58-66, 2013.

M. Wiman, D. Dienes, M. A. Hansen, T. Van-der-meulen, G. Zacchi et al., Cellulose accessibility determines the rate of enzymatic hydrolysis of steam-pretreated spruce, Bioresour. Technol, vol.126, pp.208-215, 2012.

I. P. Wood, A. Elliston, S. R. Collins, D. Wilson, I. Bancroft et al., Steam explosion of oilseed rape straw: Establishing key determinants of saccharification efficiency, Bioresour. Technol, vol.162, pp.175-183, 2014.

J. Wright, Ethanol from biomass by enzymatic hydrolysis, Chem. Eng. Prog, vol.84, pp.62-74, 1998.

G. Wu, Z. Xu, and L. J. Jönsson, Profiling of Saccharomyces cerevisiae transcription factors for engineering the resistance of yeast to lignocellulose-derived inhibitors in biomass conversion, Microb. Cell Fact, vol.16, p.199, 2017.

F. Xu, J. Yu, T. Tesso, F. Dowell, and D. Wang, Qualitative and quantitative analysis of lignocellulosic biomass using infrared techniques: A mini-review, Appl. Energy, vol.104, pp.801-809, 2013.

H. Xu, B. Li, and X. Mu, Review of Alkali-Based Pretreatment to Enhance Enzymatic Saccharification for Lignocellulosic Biomass Conversion, Ind. Eng. Chem. Res, vol.55, pp.8691-8705, 2016.

J. Xu, Microwave Pretreatment, Pretreatment of Biomass: Processes and Technologies, pp.157-172, 2014.

J. Xu, J. J. Cheng, R. R. Sharma-shivappa, and J. C. Burns, Sodium hydroxide pretreatment of switchgrass for ethanol production, Energy and Fuels, vol.24, pp.2113-2119, 2010.

Q. Xu, M. Zhao, Z. Yu, J. Yin, G. Li et al., Enhancing enzymatic hydrolysis of corn cob, corn stover and sorghum stalk by dilute aqueous ammonia combined with ultrasonic pretreatment, Ind. Crops Prod, vol.109, pp.220-226, 2017.

S. Yang, H. A. El-enshasy, and N. Thongchul, Bioprocessing technologies in biorefinery for sustainable production of fuels, chemicals, and polymers, 2013.

Q. Yu, X. Zhuang, Q. Wang, W. Qi, X. Tan et al., Hydrolysis of sweet sorghum bagasse and eucalyptus wood chips with liquid hot water, Bioresour. Technol, vol.116, pp.220-225, 2012.

Z. Yu, B. Zhang, F. Yu, G. Xu, and A. Song, A real explosion: The requirement of steam explosion pretreatment, Bioresour. Technol, vol.121, pp.335-341, 2012.

K. Zaafouri, M. Ziadi, R. Ben-farah, M. Farid, M. Hamdi et al., Potential of Tunisian Alfa (Stipa tenassicima) fibers for energy recovery to 2G bioethanol: Study of pretreatment, enzymatic saccharification and fermentation, Biomass and Bioenergy, vol.94, pp.66-77, 2016.

H. Zabed, J. N. Sahu, A. N. Boyce, and G. Faruq, Fuel ethanol production from lignocellulosic biomass: An overview on feedstocks and technological approaches, Renew. Sustain. Energy Rev, vol.66, pp.751-774, 2016.

K. Zhang, Z. Pei, and D. Wang, Organic solvent pretreatment of lignocellulosic biomass for biofuels and biochemicals: A review, Bioresour. Technol, vol.199, pp.21-33, 2016.

Y. Zhao, Y. Wang, J. Y. Zhu, A. Ragauskas, and Y. Deng, Enhanced enzymatic hydrolysis of spruce by alkaline pretreatment at low temperature, Biotechnol. Bioeng, vol.99, pp.1320-1328, 2008.

Z. Zhao, N. Li, A. W. Bhutto, A. A. Abdeltawab, S. S. Al-deyab et al., N-methyl-2-pyrrolidonium-based Brönsted-Lewis acidic ionic liquids as catalysts for the hydrolysis of cellulose, Sci. China Chem, vol.59, pp.564-570, 2016.

J. Y. Zhu, X. Pan, and R. S. Zalesny, Pretreatment of woody biomass for biofuel production: Energy efficiency, technologies, and recalcitrance, Appl. Microbiol. Biotechnol, vol.87, pp.847-857, 2010.

L. Zhu, J. P. O'dwyer, V. S. Chang, C. B. Granda, and M. T. Holtzapple, Structural features affecting biomass enzymatic digestibility, Bioresour. Technol, vol.99, pp.3817-3828, 2008.

S. Zhu, Y. Wu, Z. Yu, J. Liao, and Y. Zhang, Pretreatment by microwave/alkali of rice straw and its enzymic hydrolysis, Process Biochem, vol.40, pp.3082-3086, 2005.

Z. Zhu, C. A. Rezende, R. Simister, S. J. Mcqueen-mason, D. J. Macquarrie et al., Efficient sugar production from sugarcane bagasse by microwave assisted acid and alkali pretreatment, Biomass and Bioenergy, vol.93, pp.269-278, 2016.

X. Zhuang, W. Wang, Q. Yu, W. Qi, Q. Wang et al., Liquid hot water pretreatment of lignocellulosic biomass for bioethanol production accompanying with high valuable products, Bioresour. Technol, vol.199, pp.68-75, 2016.

X. Zhuang, Q. Yu, Z. Yuan, X. Kong, and W. Qi, Effect of hydrothermal pretreatment of sugarcane bagasse on enzymatic digestibility, J. Chem. Technol. Biotechnol, vol.90, pp.1515-1520, 2015.

X. Zhuang, Z. Yuan, L. Ma, C. Wu, M. Xu et al., Kinetic study of hydrolysis of xylan and agricultural wastes with hot liquid water, Biotechnol. Adv, vol.27, pp.578-82, 2009.

, Valorisation scientifique des travaux réalisés

I. Semhaoui, T. Maugard, I. Zarguili, S. A. Rezzoug, J. M. Zhao et al., Eco-friendly process combining acid-catalyst and thermomechanical pretreatment for improving enzymatic hydrolysis of hemp hurds, Bioresour. Technol, vol.257, pp.192-200, 2018.

I. Semhaoui, I. Zarguili, S. A. Rezzoug, T. Maugard, J. M. Zhao et al., Bioconversion of Moroccan alfa (Stipa Tenacissima) by thermomechanical pretreatment combined to acid or alkali Spraying for ethanol production, J Mater Environ Sci, vol.8, pp.2619-2631, 2017.

I. Semhaoui, I. Zarguili, S. A. Rezzoug, T. Maugard, J. M. Zhao et al., Intensification of hemp hurds hydrolysis by combined steamexplosion toward vacuum and alkali or dilute-acid spraying pretreatment, European Biomass Conference and Exhibition Proceedings, vol.2016, pp.1013-1024, 2016.

F. Lyon, I. Semhaoui, I. Zarguili, S. A. Rezzoug, T. Maugard et al., Maache-Rezzoug Z. Effect of dilute acid impregnation by spraying or soaking combined to steam pretreatment of hemp hurds, ? Communications nationales et internationales 4th International Congress on Catalysis for Biorefineries, 2017.

M. Taza, I. Semhaoui, I. Zarguili, S. A. Rezzoug, T. Maugard et al., Valorisation de l'alfa (stipa tenacissima) par prétraitement thermomécanique DIC (détente instantanée contrôlée) combinée à un catalyseur chimique en vue de la production du bioéthanol, 2ème Journées de Procédés pour l'Energie et l'Environnement (JP2E, 2016)

A. Pays-bas, I. Semhaoui, I. Zarguili, S. A. Rezzoug, T. Maugard et al., Maache-Rezzoug Z. Intensification of hemp hurds hydrolysis by combined steam-explosion toward vacuum and alkali or dilute-acid spraying pretreatment, European Biomass Conference and Exhibition (EUBCE, 2016)

M. Fès, I. Semhaoui, I. Zarguili, S. A. Rezzoug, T. Maugard et al., Maache-Rezzoug Z. Prétraitement de la biomasse lignocellulosique par DIC (Détente Instantanée Contrôlée) combiné à l'acide dilué en vue de la production de bioéthanol, 2015.