High added-value products from the hydrothermal carbonisation of olive stones

High added-value products from the hydrothermal carbonisation of olive stones

Olive stones (OS) were submitted to hydrothermal carbonisation (HTC) in order to evaluate the possibility of producing high added-value products, mainly furfural (FU) and 5-hydroxymethylfurfural (5-HMF) on one hand and hydrochars and carbons on the other hand. Temperature (160–240 °C), residence tim...

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Veröffentlicht in:Environmental science and pollution research international 2017-04, Vol.24 (11), p.9859-9869
Hauptverfasser: Borrero-López, A.M., Fierro, V., Jeder, A., Ouederni, A., Masson, E., Celzard, A.
Format: Artikel
Sprache:eng
Schlagworte:
Absorbents
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Biomass
Carbon
Carbon - chemistry
Cellulose
Chemical engineering
Chemical Sciences
Earth and Environmental Science
Ecotoxicology
Environment
Environmental Chemistry
Environmental Health
Environmental science
Furaldehyde - analogs & derivatives
Furfural
Hemicellulose
Hydroxymethylfurfural
Molecular sieves
Olea
pH effects
Phenolic compounds
Phenols
Pore size
Pore size distribution
Porosity
Process Engineering for Pollution Control and Waste Minimization
Size distribution
Temperature
Waste Water Technology
Water Management
Water Pollution Control
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Zusammenfassung:Olive stones (OS) were submitted to hydrothermal carbonisation (HTC) in order to evaluate the possibility of producing high added-value products, mainly furfural (FU) and 5-hydroxymethylfurfural (5-HMF) on one hand and hydrochars and carbons on the other hand. Temperature (160–240 °C), residence time (1–8 h), initial pH (1–5.5) and liquid/solid ratio (4–48 w / w ) were systematically varied in order to study the main products and to optimise FU production. FU production yield up to 19.9 %, based on the hemicellulose content, was obtained. Other minor, but valuable, compounds such as 5-methylfurfural (5-MF) and some phenolic compounds were also produced. The hydrochar was carbonised at 900 °C, and the resultant carbon material was highly ultramicroporous with a peak of pore size distribution centred on 0.5 nm and a surface area as high as 1065 m 2  g −1 , typical of most carbon molecular sieves.
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-016-7807-6