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Thermochemical Liquefaction as a Cleaner and Efficient Route for Valuing Pinewood Residues from Forest Fires

Diogo Gonçalves, Sofia Orišková, Sandro Matos, Henrique Machado, Salomé Vieira, David Bastos, Daniela Gaspar, Ricardo Alexandre Paiva, João C. Bordado, Abel Rodrigues, Rui Galhano dos Santos

2021Molecules23 citationsDOIOpen Access PDF

Abstract

Biomass thermochemical liquefaction is a chemical process with multifunctional bio-oil as its main product. Under this process, the complex structure of lignocellulosic components can be hydrolysed into smaller molecules at atmospheric pressure. This work demonstrates that the liquefaction of burned pinewood from forest fires delivers similar conversion rates into bio-oil as non-burned wood does. The bio-oils from four burned biomass fractions (heartwood, sapwood, branches, and bark) showed lower moisture content and higher HHV (ranging between 32.96 and 35.85 MJ/kg) than the initial biomasses. The increased HHV resulted from the loss of oxygen, whereas the carbon and hydrogen mass fractions increased. The highest conversion of bark and heartwood was achieved after 60 min of liquefaction. Sapwood, pinewood, and branches reached a slightly higher conversion, with yields about 8% greater, but with longer liquefaction time resulting in higher energy consumption. Additionally, the van Krevelen diagram indicated that the produced bio-oils were closer and chemically more compatible (in terms of hydrogen and oxygen content) to the hydrocarbon fuels than the initial biomass counterparts. In addition, bio-oil from burned pinewood was shown to be a viable alternative biofuel for heavy industrial applications. Overall, biomass from forest fires can be used for the liquefaction process without compromising its efficiency and performance. By doing so, it recovers part of the lost value caused by wildfires, mitigating their negative effects.

Topics & Concepts

LiquefactionBiomass (ecology)Pulp and paper industryChemistryBiofuelLignocellulosic biomassEnvironmental scienceHeat of combustionHydrocarbonBioenergyBark (sound)LigninWaste managementEnvironmental chemistryCombustionOrganic chemistryAgronomyEcologyBiologyEngineeringThermochemical Biomass Conversion ProcessesLignin and Wood ChemistryForest Biomass Utilization and Management
Thermochemical Liquefaction as a Cleaner and Efficient Route for Valuing Pinewood Residues from Forest Fires | Litcius