In a comparable study on homogeneou

In a comparable study on homogeneous and solid-acid catalyst
hydrolysis, Jeong and Park (2010) reported that a 16.12 g/L concentration
of galactose was obtained from red macro-algae Gelidium
amansii under 3% sulfuric acid, 108.2 C, 45 min conditions. Under
those conditions, glucose, LA and 5-HMF were formed in concentrations
of 2.45, 3.08 and zero g/L, respectively. Jeong et al.
(2014), utilizing the same red macro-algae (G. verrucosa) as did
the present study, generated an 18.38 g/L concentration of galactose
under the 1.03% sulfuric acid, 160 C, 20 min conditions, while
obtaining glucose, LA and 5-HMF in 4.88, 1.37 and 3.68 g/L concentrations,
respectively. Also, Khambhaty et al. (2012) reported that
the best TRS yield from red macro-algae Kappaphycus alvarezii
extracts was 26.2%, as obtained under the 0.9 N sulfuric acid,
100 C condition. Moreover, Tan et al. (2013) obtained, from red
macro-algae Eucheuma cottonii, an optimal sugar yield of 39.7%
under the 12.5% biomass loading, 4% solid-acid catalyst, 120 C,
1.5 h conditions.
4. Conclusions
In this work, a solid-acid catalyst (commercially available sulfonated
polymer Amberlyst-15) was applied to the hydrolysis of
marine red macro-algae G. verrucosa to produce sugars suitable
for the production of biofuels and chemicals. In the solid-acid-catalyzed
hydrolysis of G. verrucosa, the attained sugar concentration
was 61 g/L TRS (or 10.8 g/L glucose, 41.1 g/L galactose), at a 7.5 L/S
ratio, 15% solid-acid catalyst, 140 C, and 150 min. Under these
conditions, 10.7 g/L of 5-HMF and 2.5 g/L of LA also were obtained.
In light of the overall results, marine macro-algae G. verrucosa can
be considered offer great potential as a feedstock for production of