Understanding the torrefaction of woody and agricultural biomasses through their extracted macromolecular components. Part 2: Torrefaction model

María González Martínez; Capucine Dupont; Andrés Anca-Couce; Denilson da Silva Perez; Guillaume Boissonnet; Sébastien Thiéry; Xuân mi Meyer; Christophe Gourdon

doi:10.1016/j.energy.2020.118451

Understanding the torrefaction of woody and agricultural biomasses through their extracted macromolecular components. Part 2: Torrefaction model

María González Martínez^*, Capucine Dupont, Andrés Anca-Couce, Denilson da Silva Perez, Guillaume Boissonnet, Sébastien Thiéry, Xuân mi Meyer, Christophe Gourdon

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Wärmetechnik (3070)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

A new torrefaction model was proposed for predicting solid mass loss in torrefaction as a function of biomass main macromolecular composition and type, as well as on the operating conditions. To do this, solid degradation kinetics were modelled following a 2-successive reaction scheme for each macro-compound and the additive modelling approach through biomass macromolecular component behavior in torrefaction proposed by Nocquet et al. (2014). The use of extracted fractions from different woody and agricultural biomass species (ash-wood, beech, miscanthus, pine and wheat straw) instead of commercial compounds increased the accuracy of the prediction of solid kinetics in biomass torrefaction. The validation of the proposed model with 9 raw biomasses in torrefaction showed an accurate prediction for woods, while the prediction for agricultural biomasses was acceptable.

Originalsprache	englisch
Aufsatznummer	118451
Fachzeitschrift	Energy
Jahrgang	210
DOIs	https://doi.org/10.1016/j.energy.2020.118451
Publikationsstatus	Veröffentlicht - 1 Nov. 2020

ASJC Scopus subject areas

Tief- und Ingenieurbau
Bauwesen
Umweltverschmutzung
Maschinenbau
Wirtschaftsingenieurwesen und Fertigungstechnik
Elektrotechnik und Elektronik

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10.1016/j.energy.2020.118451

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@article{a761507d25df467b9b6aaf5e41c1a0ee,

title = "Understanding the torrefaction of woody and agricultural biomasses through their extracted macromolecular components. Part 2: Torrefaction model",

abstract = "A new torrefaction model was proposed for predicting solid mass loss in torrefaction as a function of biomass main macromolecular composition and type, as well as on the operating conditions. To do this, solid degradation kinetics were modelled following a 2-successive reaction scheme for each macro-compound and the additive modelling approach through biomass macromolecular component behavior in torrefaction proposed by Nocquet et al. (2014). The use of extracted fractions from different woody and agricultural biomass species (ash-wood, beech, miscanthus, pine and wheat straw) instead of commercial compounds increased the accuracy of the prediction of solid kinetics in biomass torrefaction. The validation of the proposed model with 9 raw biomasses in torrefaction showed an accurate prediction for woods, while the prediction for agricultural biomasses was acceptable.",

keywords = "Biomass, Lignin, Polysaccharides, Solid kinetics, Torrefaction",

author = "{Gonz{\'a}lez Mart{\'i}nez}, Mar{\'i}a and Capucine Dupont and Andr{\'e}s Anca-Couce and {da Silva Perez}, Denilson and Guillaume Boissonnet and S{\'e}bastien Thi{\'e}ry and Meyer, {Xu{\^a}n mi} and Christophe Gourdon",

year = "2020",

month = nov,

day = "1",

doi = "10.1016/j.energy.2020.118451",

language = "English",

volume = "210",

journal = "Energy",

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TY - JOUR

T1 - Understanding the torrefaction of woody and agricultural biomasses through their extracted macromolecular components. Part 2

T2 - Torrefaction model

AU - González Martínez, María

AU - Dupont, Capucine

AU - Anca-Couce, Andrés

AU - da Silva Perez, Denilson

AU - Boissonnet, Guillaume

AU - Thiéry, Sébastien

AU - Meyer, Xuân mi

AU - Gourdon, Christophe

PY - 2020/11/1

Y1 - 2020/11/1

N2 - A new torrefaction model was proposed for predicting solid mass loss in torrefaction as a function of biomass main macromolecular composition and type, as well as on the operating conditions. To do this, solid degradation kinetics were modelled following a 2-successive reaction scheme for each macro-compound and the additive modelling approach through biomass macromolecular component behavior in torrefaction proposed by Nocquet et al. (2014). The use of extracted fractions from different woody and agricultural biomass species (ash-wood, beech, miscanthus, pine and wheat straw) instead of commercial compounds increased the accuracy of the prediction of solid kinetics in biomass torrefaction. The validation of the proposed model with 9 raw biomasses in torrefaction showed an accurate prediction for woods, while the prediction for agricultural biomasses was acceptable.

AB - A new torrefaction model was proposed for predicting solid mass loss in torrefaction as a function of biomass main macromolecular composition and type, as well as on the operating conditions. To do this, solid degradation kinetics were modelled following a 2-successive reaction scheme for each macro-compound and the additive modelling approach through biomass macromolecular component behavior in torrefaction proposed by Nocquet et al. (2014). The use of extracted fractions from different woody and agricultural biomass species (ash-wood, beech, miscanthus, pine and wheat straw) instead of commercial compounds increased the accuracy of the prediction of solid kinetics in biomass torrefaction. The validation of the proposed model with 9 raw biomasses in torrefaction showed an accurate prediction for woods, while the prediction for agricultural biomasses was acceptable.

KW - Biomass

KW - Lignin

KW - Polysaccharides

KW - Solid kinetics

KW - Torrefaction

UR - http://www.scopus.com/inward/record.url?scp=85089376432&partnerID=8YFLogxK

U2 - 10.1016/j.energy.2020.118451

DO - 10.1016/j.energy.2020.118451

M3 - Article

AN - SCOPUS:85089376432

SN - 0360-5442

VL - 210

JO - Energy

JF - Energy

M1 - 118451

ER -

Understanding the torrefaction of woody and agricultural biomasses through their extracted macromolecular components. Part 2: Torrefaction model

Abstract

ASJC Scopus subject areas

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