selected publications

• academic article

  • Design and thermal characterization of an induction-heated reactor for pyrolysis of solid waste.  Process Safety and Environmental Protection.  173:206-214. 2021
  • The Heat Treatment Severity Index: A new metric correlated to the properties of biochars obtained from entrained flow pyrolysis of biomass.  Fuel.  244:61-68. 2019
  • The effect of pyrolysis heating rate on the steam gasification reactivity of char from woodchips.  Energy.  142:68-78. 2017
  • Biomass fast pyrolysis in a drop tube reactor for bio oil production: Experiments and modeling.  Fuel.  207:71-84. 2017
  • Biomass Chars: The Effects of Pyrolysis Conditions on Their Morphology, Structure, Chemical Properties and Reactivity.  Energies.  10:796-796. 2017
  • Analysis and comparison of bio-oils obtained by hydrothermal liquefaction and fast pyrolysis of beech wood.  Fuel.  174:180-188. 2016
  • Biomass Gasification in Entrained Flow Reactor: Influence of Wood Particle Size.  HAL (Le Centre pour la Communication Scientifique Directe).  2016
  • Influence of H 2 O, CO 2 and O 2 addition on biomass gasification in entrained flow reactor conditions: Experiments and modelling.  Fuel.  166:166-178. 2015
  • Steam gasification of char from wood chips fast pyrolysis: Development of a semi-empirical model for a fluidized bed reactor application.  Biomass and Bioenergy.  77:64-74. 2015
  • Characterization of char and soot from millimetric wood particles pyrolysis in a drop tube reactor between 800°C and 1400°C.  Fuel.  121:216-224. 2013

• conference paper

  • Co-pyrolysis of biomass and plastics from waste in an induction heated reactor.  HAL (Le Centre pour la Communication Scientifique Directe). 2021
  • Pyrolysis and gasification of solid waste and its components in a lab scale induction-heating reactor.  HAL (Le Centre pour la Communication Scientifique Directe). 2020
  • Gaya demonstration project : towards industrialization of an innovative and integrated 2nd generation bioSNG pathway through biomass gasification.  . 2014
  • Biomass Gasification Between 800 and 1,400 degrees C in the Presence of O-2: Drop Tube Reactor Experiments and Simulation.  HAL (Le Centre pour la Communication Scientifique Directe). 2014