Characterization and evaluation of guayule processing residues as potential feedstock for biofuel and chemical production

•Guayule bagasse has high energy content (24 MJ/kg) and low moisture and ash.•Guayule bagasse has abundant lignin (25 %) and low crystallinity (29–34 %).•FT-ICR MS expands the characterization range of guayule resin compounds.•Triterpenoids, sesquiterpenoids, and new steroids were identified in the...

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Bibliographic Details
Published in:Industrial crops and products 2020-08, Vol.150, p.112311, Article 112311
Main Authors: Cheng, Feng, Dehghanizadeh, Mostafa, Audu, Meshack A., Jarvis, Jacqueline M., Holguin, F. Omar, Brewer, Catherine E.
Format: Article
Language:English
Subjects:
bagasse
biofuels
biomass
Biomass characterization
calorimetry
cellulose
crystal structure
economic sustainability
energy content
esters
fatty acids
feedstocks
Fourier transform infrared spectroscopy
gas chromatography-mass spectrometry
guayule
Guayule byproducts
industrial crops
ionization
lignin
lignocellulose
Lignocellulosic biofuels
liquids
manufacturing
oxygen
ozone
Parthenium argentatum
Polysaccharide
processing residues
production costs
Resin composition
rubber
sesquiterpenoids
solvents
steroids
thermogravimetry
tires
triterpenoids
value added
X-ray diffraction
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Summary:•Guayule bagasse has high energy content (24 MJ/kg) and low moisture and ash.•Guayule bagasse has abundant lignin (25 %) and low crystallinity (29–34 %).•FT-ICR MS expands the characterization range of guayule resin compounds.•Triterpenoids, sesquiterpenoids, and new steroids were identified in the resin.•Guayule resin has potential for many applications if cost-effectively separated. In the processing of guayule (Parthenium argentatum) for bulk rubber production using solvent extraction, two residue streams are produced: a complex resin-rich liquid and a ground, dry woody bagasse. In order to enhance the economic viability of guayule as an industrial crop, value-added use of the residues is needed and has the potential to reduce gross rubber production costs. The main objective of this research is the characterization of these two residues using analytical techniques to identify potential value-added components and applications. Here, guayule bagasse and resin were characterized by CNHS/O elemental analysis, bomb calorimetry, thermogravimetric analysis, Fourier-transform infrared spectrometry (FT-IR), X-ray diffractometry (XRD), gas chromatography–mass spectrometry (GC–MS), and high-resolution Fourier transform ion cyclotron resonance mass spectroscopy (FT-ICR MS). Guayule bagasse has high energy content (22–24 MJ/kg), less moisture (0.5–1.5 wt.%) and ash (3.7–4.1 wt.%), low cellulose crystallinity (29–34 %), and abundant carbohydrates (36–38 wt.%) and lignin (22–23 wt.%) relative to plenty of other lignocellulosic biomass, indicating bagasse’s potential for thermochemical conversion to fuels. By FT-ICR MS with negative ionization mode, the most abundant classes among the 7200 heteroatom-containing compounds detected in guayule resin were O3, followed by O4 and O2. Identified compounds included fatty acids, steroids, triterpenoids, and sesquiterpene esters, some of which have never been reported, as potential precursors of industrial chemicals. Characterization of guayule bagasse and resin guides exploring potential applications of waste streams, beneficial for enhancing techno-economic feasibility of guayule rubber-derived tires manufacturing industry.
ISSN:0926-6690
1872-633X
DOI:10.1016/j.indcrop.2020.112311