Determination of tree to tree variation in syringyl/guaiacyl ratio of Eucalyptus globulus wood lignin by analytical pyrolysis

Abstract Lignocellulosic biomass represents a suitable feedstock for production of biofuels and bioproducts. Its chemical composition depends on many aspects (e.g. plant source, pre-processing) and it has impact on productivity of industrial bioprocesses. Numerous methodologies can be applied for biomass characterisation, with acid hydrolysis being a particularly relevant step. This study intended to assess the most suitable procedures for acid hydrolysis, taking Eucalyptus globulus bark as a case study. For that purpose, variation of temperature (90–120 °C) was evaluated over time (0–5 h), through monosaccharides and oligosaccharides contents and degradation. For glucose, the optimal conditions were 100 °C for 2.5 h, reaching a content of 48.6 wt.%. For xylose, the highest content (15.2 wt.%) was achieved at 90 °C for 2 h, or 120 °C for 0.5 h. Maximum concentrations of mannose and galactose (1.0 and 1.7 wt.%, respectively) were achieved at 90 and 100 °C (2–3.5 h) or at 120 °C (0.5–1 h). These results revealed that different hydrolysis conditions should be applied for different sugars. Using this approach, total sugar quantification in eucalyptus bark was increased by 4.3%, which would represent a 5% increase in the ethanol volume produced, considering a hypothetical bioethanol production yield. This reflects the importance of feedstock characterization on determination of economic viability of industrial processes.

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Analytical pyrolysis study of biodelignification of cloned Eucalyptus globulus (EG) clone and Pinus pinaster Aiton kraft pulp and residual lignins

Journal of Analytical and Applied Pyrolysis ◽

10.1016/j.jaap.2008.09.015 ◽

2009 ◽

Vol 85 (1-2) ◽

pp. 19-29 ◽

Cited By ~ 15

Author(s):

Atika Oudia ◽

Erika Mészáros ◽

Emma Jakab ◽

Rogério Simões ◽

João Queiroz ◽

...

Keyword(s):

Eucalyptus Globulus ◽

Pinus Pinaster ◽

Kraft Pulp ◽

Analytical Pyrolysis ◽

Pyrolysis Study

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Structural characterization of milled wood lignins from different eucalypt species

Holzforschung ◽

10.1515/hf.2008.096 ◽

2008 ◽

Vol 62 (5) ◽

Cited By ~ 103

Author(s):

Jorge Rencoret ◽

Gisela Marques ◽

Ana Gutiérrez ◽

David Ibarra ◽

Jiebing Li ◽

...

Keyword(s):

Eucalyptus Globulus ◽

Chemical Structure ◽

2D Nmr ◽

Analytical Pyrolysis ◽

Additional Information ◽

Diaryl Ether ◽

Heteronuclear Single Quantum Correlation ◽

Relative Abundances ◽

Type 3

Abstract The chemical structure of milled-wood lignins from Eucalyptus globulus, E. nitens, E. maidenii, E. grandis, and E. dunnii was investigated. The lignins were characterized by analytical pyrolysis, thioacidolysis, and 2D-NMR that confirmed the predominance of syringyl over guaiacyl units and only showed traces of p-hydroxyphenyl units. E. globulus lignin had the highest syringyl content. The heteronuclear single quantum correlation (HSQC) NMR spectra yielded information about relative abundances of inter-unit linkages in the whole polymer. All the lignins showed a predominance of β-O-4′ ether linkages (66–72% of total side-chains), followed by β-β′ resinol-type linkages (16–19%) and lower amounts of β-5′ phenylcoumaran-type (3–7%) and β-1′ spirodienone-type linkages (1–4%). The analysis of desulfurated thioacidolysis dimers provided additional information on the relative abundances of the various carbon-carbon and diaryl ether bonds, and the type of units (syringyl or guaiacyl) involved in each of the above linkage types. Interestingly, 93–94% of the total β-β′ dimers included two syringyl units indicating that most of the β-β′ substructures identified in the HSQC spectra were of the syringaresinol type. Moreover, three isomers of a major trimeric compound were found which were tentatively identified as arising from a β-β′ syringaresinol substructure attached to a guaiacyl unit through a 4-O-5′ linkage.

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Analytical pyrolysis in the determination of the aging of polyethylene

Journal of Analytical and Applied Pyrolysis ◽

10.1016/j.jaap.2015.02.005 ◽

2015 ◽

Vol 113 ◽

pp. 315-322 ◽

Cited By ~ 7

Author(s):

Clemens Schwarzinger ◽

Ingrid Hintersteiner ◽

Bettina Schwarzinger ◽

Wolfgang Buchberger ◽

Bernhard Moser

Keyword(s):

Analytical Pyrolysis

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THERMAL DEGRADATION ANALYSIS OF WOOD TREATED WITH FIRERETARDANTS

Environment Technology Resources Proceedings of the International Scientific and Practical Conference ◽

10.17770/etr2005vol1.2150 ◽

2005 ◽

Vol 1 ◽

pp. 295

Author(s):

Igors Urbanovičs ◽

Pēteris Mekšs ◽

Gaļina Dobele

Keyword(s):

Fire Hazard ◽

Untreated Wood ◽

Fire Retardants ◽

Analytical Pyrolysis ◽

Toxic Compounds ◽

Wood Pyrolysis ◽

Hazard Control ◽

Degradation Analysis ◽

Volatile Products

Fire hazard control in wooden constructions is very important. For this purpose, fire retardants are used, which change the thermodestruction of wood and reduce combustion. The aim of the present research project was to study and compare the fire–protective properties of fire-retardants and to explain the chemical process of pyrolysis, namely, degradation in treated and untreated wood. The influence of fire-retardants on the wood thermal stability and the amount of volatile products was estimated on the basis of thermal analysis results. The volatile products (above 50%) of the pyrolysis process were identified, and the mechanism of the influence of fire-retardants on wood thermodestruction was studied.The presence of toxic compounds, formed by pyrolysis, was evaluated. The results of the study have shown that analytical pyrolysis is a modern, precise method for identifying the toxic compounds of volatile products in processes of both wood pyrolysis and combustion. The application of analytical pyrolysis enables a prompt determination of the fire protection degree of building wood constructions.

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