Fuels from bio-oils: Bio-oil production from different residual sources, characterization and thermal conditioning

“…This result is consistent with those given in the majority of studies on catalyst deactivation due to coke formation during the steam reforming of bio-oil [17,30,36,38]. According to the statistical analyses, acetic acid was proposed as a key compound responsible for the differences found in terms of initial CC to gas, initial yields to H 2 and CO 2 and the evolution of these variables with time.…”

“…The higher content of acetic acid and the lower amount of levoglucosan in the two poplar aqueous fractions compared to the two pine aqueous fractions do not fit the expected trends, considering the overall composition of pine and poplar reported in the literature [30,31]. These differences could be a consequence of a different composition in terms of cellulose, hemicellulose and lignin of the biomasses used in this work compared with the overall composition reported in the literature.…”

“…Pine biomass has an overall composition of 35 wt.% cellulose, 29 wt.% hemicellulose and 28 wt.% lignin [30], while poplar biomass has 45 wt.% cellulose, 17 wt.% hemicellulose and 31 wt.% lignin [31]. The pyrolysis of cellulose consists of an initial depolymerisation to anhydrosugars, followed by a pyranose ring-breaking to light oxygenated species such as aldehydes.…”

Hydrogen production from pine and poplar bio-oils by catalytic steam reforming. Influence of the bio-oil composition on the process

“…This result is consistent with those given in the majority of studies on catalyst deactivation due to coke formation during the steam reforming of bio-oil [17,30,36,38]. According to the statistical analyses, acetic acid was proposed as a key compound responsible for the differences found in terms of initial CC to gas, initial yields to H 2 and CO 2 and the evolution of these variables with time.…”

“…The higher content of acetic acid and the lower amount of levoglucosan in the two poplar aqueous fractions compared to the two pine aqueous fractions do not fit the expected trends, considering the overall composition of pine and poplar reported in the literature [30,31]. These differences could be a consequence of a different composition in terms of cellulose, hemicellulose and lignin of the biomasses used in this work compared with the overall composition reported in the literature.…”

“…Pine biomass has an overall composition of 35 wt.% cellulose, 29 wt.% hemicellulose and 28 wt.% lignin [30], while poplar biomass has 45 wt.% cellulose, 17 wt.% hemicellulose and 31 wt.% lignin [31]. The pyrolysis of cellulose consists of an initial depolymerisation to anhydrosugars, followed by a pyranose ring-breaking to light oxygenated species such as aldehydes.…”

Hydrogen production from pine and poplar bio-oils by catalytic steam reforming. Influence of the bio-oil composition on the process

“…Lignocellulosic biomass has a complex internal structure and comprised of a number of major components that have, in turn, also complex structures. Table 1 shows the typical chemical compositions of all these three components in various lignocellulosic materials that vary in composition due to the genetic variability among different sources [7,8,10,11].…”

Advances in lignocellulosic biotechnology: A brief review on lignocellulosic biomass and cellulases

“…Cellulose is a major constituent of plants. It is a homogenous, linear polymer of D-glucopyranose sugar units (Kumar et al 2009;Sánchez 2009;Bertero et al 2012;Iqbal et al 2013) that are connected through β linkages. The average cellulose chain has a degree of polymerization of about 9,000 to 10,000 units.…”

Bacterial Cellulose: A Sustainable Source to Develop Value-Added Products – A Review