P. Basu, Biomass gasification, pyrolysis and torrefaction, pp.199-248, 2013.

J. D. Martínez, K. Mahkamov, R. V. Andrade, S. Lora, and E. E. , Syngas production in downdraft biomass gasifiers and its application using internal combustion engines, Renew Energy, vol.38, pp.1-9, 2012.

E. G. Pereira, D. Silva, J. N. , D. Oliveira, J. L. Machado et al., Sustainable energy: a review of gasification technologies, Renewable Sustainable Energy Rev, vol.16, pp.4753-62, 2012.

A. Sattar, G. A. Leeke, A. Hornung, and J. Wood, Steam gasification of rapeseed, wood, sewage sludge and miscanthus biochars for the production of a hydrogen-rich syngas, Biomass Bioenergy, vol.69, pp.276-86, 2014.

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

C. Dupont, S. Jacob, K. O. Marrakchy, C. Hognon, M. Grateau et al., How inorganic elements of biomass influence char steam gasification kinetics, Energy, vol.109, pp.430-435, 2016.

J. M. Encinar, J. F. Gonzalez, J. J. Rodriguez, and M. J. Ramiro, Catalysed and uncatalysed steam gasification of eucalyptus char: infuence of variables and kinetic study, Fuel, vol.80, pp.2025-2061, 2001.

M. Perander, N. Demartini, A. Brink, J. Kramb, O. Karlström et al., Catalytic effect of Ca and K on CO 2 gasification of spruce wood char, FUEL, vol.150, pp.464-72, 2015.

Y. Huang, X. Yin, C. Wu, C. Wang, J. Xie et al., Effects of metal catalysts on CO 2 gasification reactivity of biomass char, Biotechnol Adv, vol.27, pp.568-72, 2009.

Y. Zhang, M. Ashizawa, S. Kajitani, and K. Miura, Proposal of a semi-empirical kinetic model to reconcile with gasification reactivity profiles of biomass chars, Fuel, vol.87, pp.475-81, 2008.

K. Umeki, A. Moilanen, A. Gómez-barea, and J. Konttinen, A model of biomass char gasification describing the change in catalytic activity of ash, 2012.

K. Kirtania, J. Axelsson, L. Matsakas, P. Christakopoulos, K. Umeki et al., Kinetic study of catalytic gasification of wood char impregnated with different alkali salts, Energy, vol.118, pp.1055-65, 2017.

S. Jia, S. Ning, H. Ying, Y. Sun, W. Xu et al., High quality syngas production from catalytic gasification of woodchip char, Energy Convers Manage, vol.151, pp.457-64, 2017.

J. Kramb, J. Konttinen, A. Gómez-barea, A. Moilanen, and K. Umeki, Modeling biomass char gasification kinetics for improving prediction of carbon conversion in a fluidized bed gasifier, 2014.

J. Kramb, N. Demartini, M. Perander, A. Moilanen, and J. Konttinen, Modeling of the catalytic effects of potassium and calcium on spruce wood gasification in CO 2, 2016.

C. Dupont, T. Nocquet, D. Costa, J. A. Verne-tournon, and C. , Kinetic modelling of steam gasification of various woody biomass chars: Influence of inorganic elements, Bioresour Technol, vol.102, pp.9743-9751, 2011.

M. Kajita, T. Kimura, K. Norinaga, C. Li, and J. Hayashi, Catalytic and Noncatalytic Mechanisms in Steam Gasification of Char from the Pyrolysis of Biomass, 2009.

L. M. Romero-millan, S. Vargas, F. E. Nzihou, and A. , Kinetic analysis of tropical lignocellulosic agrowaste pyrolysis, BioEnergy Res, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01581811

A. Cuéllar and I. Muñoz, Fibra de guadua como refuerzo de matrices poliméricasbamboo fiber reinforcement for polymer matrix, Dyna, vol.77, pp.137-179, 2010.

Q. Mortley, W. A. Mellowes, and S. Thomas, Activated carbons from materials of varying morphological structure, Themochim Acta, vol.129, pp.87334-87343, 1988.

J. A. García-núñez, M. García-pérez, and K. C. Das, Determination of kinetic parameters of thermal degradation of palm oil mill by-products using thermogravimetric analysis and differential scanning calorimetry, Trans ASABE, vol.51, pp.547-57, 2008.

F. Marquez-montesinos, T. Cordero, -. Rodriguez, and J. Rodriguez, CO2 and steam gasification of a grapefruit skin char, Fuel, vol.81, pp.423-432, 2002.

M. Morin, S. Pécate, E. Masi, and M. Hémati, Kinetic study and modelling of char combustion in TGA in isothermal conditions, Fuel, vol.203, pp.522-558, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01845490

S. Vyazovkin, A. K. Burnham, J. M. Criado, L. A. Pérez-maqueda, C. Popescu et al., ICTAC kinetics committee recommendations for performing kinetic computations on thermal analysis data, Thermochim Acta, vol.520, pp.1-19, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01350051

P. ?imon, Isoconversional methods fundamentals, meaning and application, J Therm Anal Calorim, vol.76, pp.123-155, 2004.

M. E. Brown, Handbook of Thermal Analysis and Calorimetry, Principles and Practice. First ed, vol.1, 1998.

I. I. Ahmed and A. K. Gupta, Kinetics of woodchips char gasification with steam and carbon dioxide, Appl Energy, vol.88, pp.1613-1622, 2011.

G. Lopez, J. Alvarez, M. Amutio, A. Arregi, J. Bilbao et al., Assessment of steam gasification kinetics of the char from lignocellulosic biomass in a conical spouted bed reactor, Energy, vol.107, pp.493-501, 2016.

G. Samdani, A. Ganesh, P. Aghalayam, R. K. Sapru, B. L. Lohar et al., Kinetics of heterogeneous reactions with coal in context of underground coal gasification, 2017.

J. Tanner and S. Bhattacharya, Kinetics of CO 2 and steam gasification of Victorian brown coal chars, Chem Eng J, vol.285, pp.331-371, 2016.

F. J. Gotor, J. M. Criado, J. Malek, and N. Koga, Kinetic analysis of solid-state reactions: the universality of master plots for analyzing isothermal and nonisothermal experiments, J Phys Chem A, pp.10777-82, 2000.

P. E. Sánchez-jiménez, L. A. Pérez-maqueda, A. Perejón, and J. M. Criado, Generalized master plots as a straightforward approach for determining the kinetic model: the case of cellulose pyrolysis, Thermochim Acta, vol.552, pp.54-63, 2013.

D. P. Ye, J. B. Agnew, and D. K. Zhang, Gasification of a South Australian low-rank coal with carbon dioxide and steam: kinetics and reactivity studies, Fuel, vol.77, pp.14-17, 1998.

R. C. Everson, H. Neomagus, R. Kaitano, R. Falcon, D. Cann et al., Properties of high ash coal-char particles derived from inertinite-rich coal: II. Gasification kinetics with carbon dioxide, 2008.

K. Yip, F. Tian, J. Hayashi, and H. Wu, Effect of alkali and alkaline earth metallic species on biochar reactivity and syngas compositions during steam gasification, 2009.

C. Le and S. Kolaczkowski, Steam gasification of a refuse derived char: reactivity and kinetics, Chem Eng Res Des, vol.102, pp.389-98, 2015.

M. Farid, M. Jeong, H. J. Hwang, and J. , Co-gasification of coal-biomass blended char with CO2 and H2O: effect of partial pressure of the gasifying agent on reaction kinetics, Fuel, vol.162, pp.234-242, 2015.

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.

A. Nzihou, B. Stanmore, and P. Sharrock, A review of catalysts for the gasification of biomass char, with some reference to coal, Energy, vol.58, pp.305-322, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01632394

B. Bayarsaikhan, J. Hayashi, T. Shimada, C. Sathe, C. Li et al., Kinetics of steam gasification of nascent char from rapid pyrolysis of a Victorian brown coal, 2005.

M. Shahbaz, S. Yusup, A. Inayat, D. O. Patrick, and M. Ammar, The influence of catalysts in biomass steam gasification and catalytic potential of coal bottom ash in biomass steam gasification: a review, 2017.

W. B. Valor, D. Adamon, L. A. Fagbémi, A. Bensakhria, and E. A. Sanya, Comparison of Kinetic Models for Carbon Dioxide and Steam Gasification of Rice Husk Char. Waste Biomass Valorization n

C. Guizani, F. Sanz, and S. Salvador, The gasification reactivity of high-heating-rate chars in single and mixed atmospheres of H2O and CO2, Fuel, vol.108, pp.812-835, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01688113

A. Anca-couce, N. Zobel, A. Berger, and F. Behrendt, Smouldering of pine wood: kinetics and reaction heats, Combust Flame, vol.159, pp.1708-1727, 2012.