(2018) Bioresource Technology_Phosphoric acid-activated wood biochar for catalytic conversion of starch-rich food waste into glucose and 5-hydroxymethylfurfural
Cao L., Yu I.K.M., Tsang D.C.W., Zhang S., Ok Y.S., Kwon E.E., Song H., Poon C.S.
(Elsevier Ltd) Bioresource Technology ISSN: 9608524 Vol.267 Issue. Article No. DOI: 10.1016/j.biortech.2018.07.048
The catalytic activity of engineered biochar was scrutinized for generation of glucose and hydroxymethylfurfural (HMF) from starch-rich food waste (bread, rice, and spaghetti). The biochar catalysts were synthesized by chemical activation of pinewood sawdust with phosphoric acid at 400–600 °C. Higher activation temperatures enhanced the development of porosity and acidity (characterized by C–O–PO3 and C–PO3 surface groups), which imparted higher catalytic activity of H3PO4-activated biochar towards starch hydrolysis and fructose dehydration. Positive correlations were observed between HMF selectivity and ratio of mesopore to micropore volume, and between fructose conversion and total acid density. High yields of glucose (86.5 C mol% at 150 °C, 20 min) and HMF (30.2 C mol% at 180 °C, 20 min) were produced from rice starch and bread waste, respectively, over H3PO4-activated biochar. These results highlighted the potential of biochar catalyst in biorefinery as an emerging application of engineered biochar. © 2018 Elsevier Ltd
The authors appreciate the financial support from the Environment and Conservation Fund [ K-ZB78 ], Hong Kong Research Grants Council [PolyU 15217818], and Hong Kong International Airport Environmental Fund [K-ZJKC].
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