Enhancing the Production of H2 and Volatile Fatty Acids by Fungal Pretreatment of Invasive Macroalgae () Followed by Dark Fermentation
Pedro Fernández-Medina, Cristina Agabo, Ana Blandino, Luis I. Romero-García, Carlos J. Álvarez-Gallego

TL;DR
This study shows that fungal pretreatment of invasive algae can boost hydrogen and fatty acid production through dark fermentation.
Contribution
The novel approach combines fungal pretreatment with dark fermentation to optimize biofuel and biochemical production from invasive macroalgae.
Findings
The highest H2 yield was 9.49 mLH2/gbiomass after 8 days of pretreatment with 107 cel/gbiomass.
The greatest TVFA production was 213 mg of acetic acid equivalents/gbiomass after 5 days using 108 cel/gbiomass.
Fungal pretreatment improves dark fermentation performance for biofuel and biochemical production.
Abstract
The blue economy promotes the sustainable use of marine resources, such as algae, for socioeconomic development. This study aims to increase the production of hydrogen (H2) and volatile fatty acids (VFA) through the dark fermentation of the invasive macroalga . Batch experiments were conducted to identify the optimal operating conditions, with the following parameters being varied: inoculum-substrate ratio (IS) (0.43, 0.25, and 0.11 v/v); initial pH (5.5, 6.5, and 7.5); and algal suspension concentration (4, 6, 8, and 10% w/v). Additionally, the impact of biological pretreatment using was assessed. This was performed via solid-state fermentation (SSF) at two fungal inoculum concentrations (107 and 108 cel/gbiomass) and two incubation times (5 and 8 days). The highest H2 yield (9.49 mLH2 /gbiomass) was obtained after 8 days of pretreatment with 107 cel/gbiomass, whereas the greatest TVFA…
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Taxonomy
TopicsFood Industry and Aquatic Biology · Protein Hydrolysis and Bioactive Peptides · Algal biology and biofuel production
