D. W. Bapat, S. V. Kulkarni, and V. P. Bhandarkar, Design and operating experience on fluidized bed boiler burning biomass fuels with high alkali ash, pp.165-74, 1997.

R. Saidur, E. A. Abdelaziz, A. Demirbas, M. S. Hossain, and S. Mekhilef, A review on biomass as a fuel for boilers, Renew Sustain Energy Rev, vol.15, pp.2262-89, 2012.

S. Heidenreich and P. U. Foscolo, New concepts in biomass gasification, Prog Energy Combust Sci, vol.46, pp.72-95, 2015.

A. M. Felicimo, A. Gomez, and J. Munoz, Potential distribution of forest species in dehesas of Extremadura (Spain), Adv Geoecol, vol.37, pp.231-277, 2004.

V. K. Verma, S. Barm, F. Delattin, P. Laha, I. Vandendeal et al., Agropellets for domestic heating boilers: standard laboratory and real life performance, Appl Energy, vol.90, pp.17-23, 2012.

A. Sebban, A. Bahloul, M. Saadoune, A. A. Kassi, M. Berrada et al., Schéma de valorisation des grignons d'Olives produits les Maasras Marocaines

D. Francophone, Ecologie Industrielle, vol.34, pp.39-43, 2004.

E. Tsagaraki, H. N. Lazarides, and K. B. Petrotos, Utilisation of by-products and treatment of waste in the food industry, pp.133-57, 2007.

G. Boari, A. Brunetti, R. Passino, and A. Rozzi, Anaerobic digestion of olive oil mill wastewater, Agriculture Wastes, vol.10, pp.161-75, 1984.

A. C. Caputo, F. Scacchia, and P. M. Pelagagge, Disposal of by-products in olive oil industry: waste to energy solutions, App Therm Eng, vol.23, pp.197-214, 2003.

V. Balice, G. Boari, O. Cera, and P. Abbaticchio, Indagine analittica sulle acque di vegetazione, Nota 1, Inquinamento, vol.7, pp.49-53, 1982.

M. Jeguirim, A. Chouchene, A. F. Reguillon, G. Trouvé, L. Buzit et al., A new valorisation strategy of olive mill waste water: Impregnation on sawdust and combustion, Resour Conserv Recycl, vol.59, pp.4-8, 2012.

N. Kraeim, M. Jeguirim, L. Limousy, M. Lajili, S. Dorge et al., Impregnation of olive mill wastewater on dry biomasses: Impact on chemical properties and combustion performances, Energy, vol.78, pp.479-89, 2014.

M. Jeguirim, P. Dutourmié, A. Zopras, and L. Limousy, Olive Mill Wastewater: From a pollutant to Green Fuels, Agricultural Water Source and Bio-Fertilizer-Part 1. The drying kinetics, Energies, vol.10, pp.1-16, 2017.

P. Mckendry, Energy production from biomass, Conversion technologies, vol.83, pp.47-54, 2002.

M. I. Jahirul, M. G. Rasul, A. A. Chowdhury, and N. Ashwath, Biofuels Production through Biomass Pyrolysis-A Technological Review, Energies, vol.5, pp.4952-5001, 2012.

A. Gagliano, F. Nocera, M. Bruno, and I. Blanco, Effectiveness of thermodynamic adaptive equilibrium models for modeling the pyrolysis process, Sustainable Energy Technol Assess, vol.27, pp.74-82, 2018.

O. P. Kohse-höinghaus, T. A. Cool, T. Kasper, N. Hansen, F. Qi et al., Angew Chem Int Ed, vol.49, pp.3572-97, 2010.

M. A. Mami, H. Mätzing, H. Gehrmann, D. Stapf, R. Bolduan et al., Investigation of the Olive Mill Solid Wastes Pellets Combustion in a Counter-Current Fixed Bed Reactor, Energies, vol.11, pp.1-21, 2018.

V. S. Sikarwar, M. Zhao, P. S. Fennell, N. Shah, and E. J. Anthony, Progress in biofuel production from gasification, Prog Energy Combust Sci, vol.61, pp.189-248, 2017.

S. Farzad, M. A. Mandegari, and J. F. Görgens, A Critical review on biomass gasification, cogasification, and their environmental assessments, Biofuel Res J, vol.12, pp.483-95, 2016.

H. Wu, Q. Liu, Z. Bai, G. Xie, J. Zheng et al., Thermodynamics analysis of a novel steam/air biomass gasification combined cooling, heating and power system with solar energy, App Therm Eng, vol.164, p.114494, 2020.

K. Umeki, K. Yamamoto, and T. Yochikawa, High temperature steam-only gasification of woody biomass, Appl Energy, vol.87, pp.791-799, 2010.

J. Zhou, Q. Chen, H. Zhao, X. Cao, Q. Mei et al., Biomass-Oxygen gasification in a high-temperature entrained-flow gasifier, Biotechnol Adv, vol.27, pp.606-617, 2009.

K. Qin, W. Lin, P. A. Jensen, and A. D. Jensen, High-temperature entrained flow gasification of biomass, Fuel, vol.93, pp.589-600, 2012.

D. Blasi and C. , Combustion and gasification rates of cellulosic chars, Prog Energy Combust Sci, vol.35, pp.121-161, 2009.

K. Manatura, J. H. Lu, K. T. Wu, and H. T. Hsu, Exergy analysis on torrefied rice husk pellet in Fluidized Bed gasification, App Therm Eng, vol.111, pp.1016-1040, 2017.

P. Ostrowski, I. Maj, S. Kalisz, and M. Polok, Biomass low-temperature gasification in a rotary reactor prior to cofiring of syngas in power boilers, App Therm Eng, vol.118, pp.785-95, 2017.

C. Guizani, E. Sanz, F. J. , and S. S. , The gasification reactivity of high-heatingrate chars in single and mixed atmospheres of H2O and CO2, Fuel, vol.108, pp.812-835, 2013.

M. Zribi, M. Lajili, E. Sanz, and F. J. , Hydrogen enriched syngas production via gasification of biofuels pellets/powders blended from olive mill solid wastes and pine sawdust under different water steam/nitrogen atmospheres, Int J Hydrogen Energy, vol.44, pp.11280-11288, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02108148

V. S. Sikarwar, M. Zhao, P. Clough, J. Yao, X. Zhong et al., An overview of advances in biomass gasification, Energy Environ Sci, vol.9, pp.2927-3304, 2016.

C. Z. Li, Importance of volatile-char interactions during the pyrolysis and gasification of low-rank fuels -A review, Fuel, vol.112, pp.609-632, 2013.

M. Lajili, C. Guizani, F. J. Escudero-sanz, and M. Jeguirim, Fast pyrolysis and steam gasification of pellets prepared from olive oil mill residues, Energy, vol.150, pp.61-69, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01724416

C. Hognon, C. Dupont, M. Grateau, and F. Delrue, Comparison of steam gasification reactivity of algal and lignocellulosic biomass: Influence of inorganic elements, Bioresour Technol, vol.164, pp.347-53, 2014.

P. Ollero, A. Serrera, R. Arjona, and S. Alcantarilla, The CO 2 gasification kinetics of olive residue, Biomass Bioenerg, vol.24, pp.151-61, 2003.

V. Van-de-steene, J. P. Tagutchou, E. Sanz, F. J. , and S. S. , Gasificationof wood particles: Experimental and numerical study of char-H2O, char-CO2, and char-O2 reactions, Chem. Eng. Sci, vol.66, pp.4499-4509, 2011.

A. Molina and F. Mondragón, Reactivity of coal gasification with steam and CO2, Fuel, vol.77, issue.15, pp.123-132, 1998.

S. Dsappa, P. J. Pail, H. S. Mukunda, and U. Shrinivasa, The gasification of wood-char spheres in CO2-N2 mixtures: analysis and experiments, Chem Eng Sci, vol.49, pp.223-255, 1994.

X. Yao, Q. Yu, K. Wang, H. Xie, and Q. Qin, Kinetic characterisation of biomass char CO2 gasification reaction within granulated blast furnace slag, Int J Hydrogen Energy, vol.42, pp.20520-20528, 2017.

S. Tong, L. Li, L. Duan, C. Zaho, and E. J. Anthony, A kinetic study on lignite char gasification with CO2 and H2O in a fluized bed reactor, Appl Therm Eng, vol.147, pp.602-611, 2019.

T. Mani, N. Mahinpey, and P. Murugan, Reaction kinetics and mass transfer studies of biomass char gasification with CO2, Chem Eng Sci, vol.66, pp.36-41, 2011.

E. M. Hodge, D. G. Roberts, D. J. Harris, and J. F. Stubington, The significance of char morphology to the analysis of high-temperature char-CO2 reaction rates, Energy Fuel, vol.24, pp.100-107, 2009.

M. Balá?, M. Lisý, and O. ?telcl, The effect of Temperature on the Gasification Process, Acta Polytechnica, vol.52, pp.7-11, 2012.

M. Balá?, M. Lisý, and J. Pospí?il, Steam Biomass Gasification-Effect of Temperature, Mech Mater, vol.832, pp.49-54, 2016.

M. Jeguirim, N. Kraiem, M. Lajili, and C. Guizani, The relationship between mineral contents, particle matter and bottom ash distribution during pellet combustion: molar balance and chemometric analysis, Environ Sci Pollut Res, vol.24, pp.9927-9966, 2017.

R. Li, J. Zhang, G. Wang, X. Ning, X. Wang et al., Study on CO2 gasification reactivity of biomass char derived from high-temperature rapid pyrolysis, App Therm Eng, vol.121, pp.1022-1053, 2017.

A. Chouchene, M. Jeguirim, G. Trouvé, A. Favre-reguillon, L. Buzit et al., Combined process for the treatment of olive oil mill wastewater: Adsorption on sawdust and combustion of the impregnated sawdust, Bioresour Technol, vol.101, pp.6973-82, 2010.

C. Guizani, M. Jeguirim, R. Gadiou, E. Sanz, F. J. et al., Biomass char gasification by H2O, CO2 and their mixture: Evolution of chemical, textural and structural properties of the chars, Energy, vol.112, pp.133-178, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01609108

D. G. Roberts and D. J. Harris, Char Gasification with O2, CO2, and H2O: Effects of Pressure on Intrinsic Reaction Kinetics, Energy Fuel, vol.14, pp.483-492, 2000.

P. Wang, N. Means, and D. Shekhawat, Berry D The reactivity of coal char in chemical looping gasification and combustion, World of Coal Ash, 2015.

D. J. Harris and I. W. Smith, Intrinsic reactivity of petroleum coke and brown coal to carbon dioxide, steam and oxygen, Proc Combust Inst, vol.23, pp.1185-90, 1990.