Direct and Alkaline Glycerol Liquefaction of Hazelnut Shell
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Demirbas, A. (2010). Direct and Alkaline Glycerol Liquefaction of Hazelnut Shell. ENERGY SOURCES PART A-RECOVERY UTILIZATION AND ENVIRONMENTAL EFFECTS, 32(8), 689-696Abstract
Hazelnut shell was liquefied directly in water at 530–710 K and in glycerol
and alkaline (10% sodium carbonate) glycerol at 523–603 K temperature range.
Thermal degradation of biomass, cellulose, hemicelluloses, and products were formed
as well as a solid residue of char in low temperatures. In the liquefaction process, the
micellar-like broken down fragments produced by hydrolysis are degraded to smaller
compounds by dehydration, dehydrogenation, deoxygenation, and decarboxylation.
These compounds once produced, rearrange through condensation, cyclization, and
polymerization, leading to new compounds. The yields of water liquefaction were
13.5, 21.0, 30.3, 32.3, 36.8, 45.4, 47.8, 48.4, and 46.3% by weight at 550, 570, 590,
610, 630, 650, 670, 690, and 710 K, respectively. Alkalis such as sodium carbonate
and potassium carbonate, can lead to the formation of hydrolysis of macromolecules,
such as cellulose and hemicellulose, into smaller fragments. The yields of alkaline
glycerol liquefaction were 34.7, 39.5, 89.8, 98.4, and 100% by weight at 523, 533,
543, 553, and 563 K, respectively. The yields of liquid products slightly decreased
at temperatures greater than 583 K. The yields of liquefaction were 96.8, 93.6, and
91.7% by weight at 583, 593, and 603 K, respectively.
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32Issue
8URI
https://www.tandfonline.com/doi/pdf/10.1080/15567030802089904?needAccess=truehttps://hdl.handle.net/11503/1107
https://doi.org10.1080/15567030802089904