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Bioethanol Production from Marine Macroalgae Waste: Optimisation of Thermal acid Hydrolysis

Sara Pardilhó, Joana Oliveira, José C.M. Pires, Joana Maia Dias

2024Waste and Biomass Valorization16 citationsDOIOpen Access PDF

Abstract

Abstract Marine macroalgae waste, resulting from the accumulation of drifted algal biomass along the coastline, might be a relevant complementary raw material aiming sustainable bioethanol production. In the present study, the optimisation of thermal acid hydrolysis was performed using response surface methodology (RSM) considering the effect of three variables, namely, reaction time (10–60 min), acid concentration (0.1–2.5% (v/v) H 2 SO 4 ) and biomass:acid ratio (5–15% (w/v)) on sugar concentration and yield. Under the best conditions, the resulting hydrolysates were fermented (7 days, 30 °C, 150 rpm, commercial yeast) to produce bioethanol. A statistically valid second-order model was obtained ( r 2 = 0.9876; Prob > F lower than 0.05), showing that sugar concentration is mostly influenced by the biomass:acid ratio while reaction time was not significant. The maximum predicted sugar concentration was 18.4 g/L, being obtained at 2.5% H 2 SO 4 concentration and 15% (w/v) biomass:acid ratio, corresponding to a sugars yield of 12.5 g/100 g (less 36% than that obtained using 10% (w/v)). At the best conditions, the hydrolysates were fermented to obtain a bioethanol concentration up to 2.4 g/L and a 21 mg bioethanol /g biomass yield, emphasizing the biomass potential for bioenergy production. Graphical Abstract

Topics & Concepts

BiofuelHydrolysisProduction (economics)Waste managementEnvironmental sciencePulp and paper industryAcid hydrolysisChemistryBiochemical engineeringEngineeringOrganic chemistryEconomicsMacroeconomicsBiofuel production and bioconversionAlgal biology and biofuel productionEnzyme Production and Characterization
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