CARRIER, M. ⠀

Fast Pyrolysis of Hemicelluloses into Short-Chain Acids: An Investigation on Concerted Mechanisms

Co-pyrolysis of coal and raw/torrefied biomass: A review on chemistry, kinetics and implementation

Fast pyrolysis of tannins from pine bark as a renewable source of catechols

Ni/HZSM-5 catalyst preparation by deposition-precipitation. Part 2. Catalytic hydrodeoxygenation reactions of lignin model compounds in organic and aqueous systems

Fast pyrolysis of low and high ash paper waste sludge: Influence of reactor temperature and pellet size

Vacuum pyrolysis of agricultural wastes and adsorptive criteria description of biochars governed by the presence of oxides

Inherent process variations between fast pyrolysis technologies: A case study on Eucalyptus grandis

Lignocellulose pyrolysis with condensable volatiles quantification by thermogravimetric analysis—Thermal desorption/gas chromatography–mass spectrometry method

Energy conversion assessment of vacuum, slow and fast pyrolysis processes for low and high ash paper waste sludge

Structural and chemical modifications of typical South African biomasses during torrefaction

Fast pyrolysis of lignin-coated radiata pine

Depolymerization of acetosolv lignin through in-situ catalytic fast pyrolysis

Arsenic phytoextraction by pteris vittata l. and frond conversion by solvolysis: An integrated gentle remediation option for restoring ecosystem services in line with the biorefinery and the bioeconomy

Biochar degradation in vitro and in situ

Conventional fast pyrolysis of coated biomass as an alternative to the valorization of natural thermoset polymers

Using Apparent Activation Energy as a Reactivity Criterion for Biomass Pyrolysis

Pyrolysis and combustion of municipal solid wastes: Evaluation of synergistic effects using TGA-MS

Valorisation of paper waste sludge via fermentation and pyrolysis

Structure-reactivity relationship in pyrolysis of plastics. A comparison with natural polymers

Ni/HZSM-5 catalyst preparation by deposition-precipitation. Part 1. Effect of nickel loading and preparation conditions on catalyst properties

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