1. Improving the production efficiency and sustainability of lignin-alcohol fuel processed at ambient temperature.
- Author
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Simonsen, Tor Ivan, Djajadi, Demi Tristan, Montanvert, Hugo, Sgarzi, Massimo, Gigli, Matteo, Thomsen, Sune Tjalfe, Orozco, Yohanna Cabrera, and Crestini, Claudia
- Subjects
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RENEWABLE energy sources , *MANUFACTURING processes , *LIGNINS , *ENERGY density , *BIOMASS energy , *LIGNIN structure - Abstract
• A low-temperature lignin fuel production process is demonstrated up to liter scale. • The use of Hildebrand solubility parameters improves the fuel production yield. • 89% yield reached optimizing the glycerol/ethanol solvent system and solid content. • High solid concentration is attained without the need of solvent-evaporation step. • A volumetric energy density of 26 MJ/L is achieved. Lignin represents a promising source of renewable energy. The development of CLEO (Cold processed Lignin Ethanol Oil) fuel introduces a novel lignin valorization approach, proposing its potential as maritime biofuel. However, its industrial success depends on enhancing fractionation yields and reducing solvent evaporation, which necessitates a detailed analysis of lignin properties, solvent types, and process parameters. By using novel combinations of biobased solvents, yields improved from 34 wt% to 49–53 wt% by using 30 wt% water or 40 wt% glycerol in ethanol, where Hildebrand Solubility Parameters emerged as indicative tool for increasing yields. Experiments on solid-to-liquid (S:L) ratios revealed a good balance between yield and lignin dispersion concentration at an S:L of 1:2.5. Producing CLEO with an improved solvent composition and S:L ratio resulted in 89 wt% yield while eliminating solvent evaporation requirements. This study highlights the potential for enhancing CLEO production efficiency and advancing it to industrial scale. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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