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Assessment of cell disruption methods in an integrated multi-product biorefinery for Nannochloropsis Oceanica: from process design to economic analysis.

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Microalgae are bioresources with significant potential within a sustainable, circular, bio-economy. However, high production costs have limited the widespread use of algae biomass. This study aimed to develop a multi-product biorefinery for Nannochloropsis oceanica that generates multiple revenue streams from the biomass, thereby enhancing the economic viability of algal production. The effectiveness of cell wall disruption using high-pressure homogenization and enzymatic hydrolysis was evaluated. Enzymatic hydrolysis solubilized nearly half (48.2 ± 1.5%) of the dry cell weight, compared to only 27.3 ± 3.2% with high-pressure homogenization, resulting in more concentrated water-soluble fractions and significantly higher protein extraction yields. Lipid extracts obtained after enzymatic hydrolysis had higher lipid (72.0 ± 5.3% w/w) and eicosapentaenoic acid (28.1 ± 6.9% w/w) contents than those from high-pressure homogenization (38.8 ± 6.1% w/w lipids; 9.1 ± 0.6% w/w eicosapentaenoic acid), despite similar lipid extraction yields (around 30%). Increasing the ethanol volumetric ratio from 58% to 75% v/v significantly improved lipid extraction yields (57.4 ± 3.1%) in the enzymatic hydrolysis-based biorefinery, with even higher yields observed upon scaling up (70.1%). All fractions, including lipid extracts, exhibited a balanced essential amino acid profile that exceeded the WHO/FAO/UNU-recommended values. A preliminary economic analysis indicated that lipid production was more cost-effective when cells were permeabilized by enzymatic hydrolysis than by high-pressure homogenization.

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Microalgae Biorefinery Multi-product Process integration Membrane filtration Ethanolic extraction Cost-effectiveness

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