Valorization of some lignocellulosic agro-industrial residues to obtain biopolyols

Valorization of some lignocellulosic agro-industrial residues to obtain biopolyols

BACKGROUND: The valorization of renewable and abundant resources (date seed, olive stone, corncob, rapeseed cake and apple pomace) from agro‐industrial activities was performed by mild liquefaction using polyhydric alcohols to obtain biopolyols that constitute an attractive choice for polyurethanes...

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Published in:Journal of chemical technology and biotechnology (1986) Vol. 87; no. 2; pp. 244 - 249
Main Authors: Briones, Rodrigo, Serrano, Luis, Labidi, Jalel
Format: Journal Article
Language:English
Published: Chichester, UK John Wiley & Sons, Ltd 01-02-2012
Wiley
Subjects:
Applied sciences
biopolyols
Chemical engineering
Exact sciences and technology
lignocellulosic residues
liquefaction
polyhydric alcohols
Viscosity
Foam
Liquefaction
Upgrading
Reaction product
lignocellulosic residues
Production
polyhydric alcohols
Precursor
biopolyols
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Summary:BACKGROUND: The valorization of renewable and abundant resources (date seed, olive stone, corncob, rapeseed cake and apple pomace) from agro‐industrial activities was performed by mild liquefaction using polyhydric alcohols to obtain biopolyols that constitute an attractive choice for polyurethanes and other industrial sectors. RESULTS: The results indicated that liquefaction yields above 90% were obtained for almost all resources (except for rapeseed cake residue) at a minimum ratio of 0.25 mass/liquefying solvent by using weight ratio polyethylene glycol:glycerol:sulphuric acid of 80:20:3, at quite reasonable reaction temperature and time; 160 °C and 60 min, respectively. The values determined for hydroxyl number and viscosity in polyols from date seeds were found to be in the range of those typical of commercial polyols used in polyurethane foam production. On the other hand, the multifunctional liquids from apple pomace, olive stone, corncob and rapeseed cake could be used not only as precursor in polyurethane production but also for replacement of a certain amount of the polyhydroxy alcohol in polyester synthesis. CONCLUSION: The results obtained demonstrated the viability of using polyhydric alcohol liquefaction to generate bio‐based polyols, thus opening new avenues of exploitation of these by‐products. Copyright © 2011 Society of Chemical Industry
Bibliography:istex:6B113C143832718503C72E7B547639C6D3BA8C4B
ArticleID:JCTB2706
ark:/67375/WNG-7RDV2ZGG-Z
ISSN:0268-2575
1097-4660
DOI:10.1002/jctb.2706