1 research outputs found
Valorization of the Exoskeletons of Crustaceans in Seafood Wastes to Chemicals in Renewable Solvents: A Catalytic and Mechanistic Study
Levulinic acid (LA) and γ-valerolactone (GVL) are
considered
valuable platform chemicals that can be derived from various types
of biomass ranging from food wastes to agricultural residues. Herein,
the valorization of the exoskeletons of crustaceans in seafood wastes
into LA, GVL, acetic acid (AA), and ammonium (NH4)+ was studied including the catalytic and mechanistic aspects.
Chitin was used as a model compound to optimize the conditions for
converting the exoskeletons of crustaceans in seafood wastes using
acetic acid (AA) and GVL as bio-originated renewable solvents. The
same conditions were applied to convert various pretreated seafood
wastes, such as the exoskeletons of crabs and lobsters. The decalcification
of the crustacean samples using phosphoric acid was also studied.
GVL was also used as a solvent to produce formic acid (FA), LA, NH4+, and GVL to simplify the product purification
process. The reaction mixture of chitin (0.41 g, equivalent to 2 mmol
of N-acetyl-glucosamine) in a mixture of 10 mL of
GVL and 1.5 mL of 5 M H2SO4 was heated at 150
°C for 4 h followed by neutralization with additional NH4+ (NH4OH) to result in two phases due
to the salting out effect of (NH4)2SO4. Ru-based Shvo’s catalyst was then added to the organic phase
for transfer hydrogenation of LA with FA as the hydrogen donor to
yield GVL. Uniformly labeled N-acetyl-[13C6]glucosamine (UL-13C6-NAG) was
used to confirm the formation of 13C5-GVL in 12C5-GVL via 13C5-LA and 13C-FA. Detailed in situ NMR studies revealed
the presence of two bicyclic compounds, protonated salt of 1,6-anhydro-2-deoxy-2-ammonio-glucopyranose
(AGluNPH+) and 1,6-anhydro-2-deoxy-2-ammonio-glucofuranose
(AGluNFH+), as proposed key intermediates of the of UL-13C6-NAG conversion