Abstract
The development of a bio-based economy has its foundations in the development of efficient processes to optimize biomass potential. In this context there are a multitude of molecules that can be either synthetized or recovered from biomass, among those the so-called 12 building-blocks reported by the US Department of Energy. Even if their identification and importance is clearly defined, research efforts concerning the purification or separation of these platform molecules are limited. To fill this gap, different configurations for the purification of levulinic acid recovered from lignocellulosic biomass are examined and compared in this work. In particular, hybrid configurations obtained by the combination of liquid-liquid extraction and distillation have been considered. It was demonstrated how a deep understanding of the subspace including all extraction-assisted simple column distillation configurations represents a fundamental step in the synthesis of different process alternatives. From a separation efficiency and economic standpoint, the proposed intensified liquid-liquid thermally equivalent configuration (LL-TE) and liquid-liquid side stream column configuration (LL-SSC) are promising solutions. Nonetheless, their performances are deeply interrelated to the purity target defined by the designer.
Highlights
The increase of carbon dioxide emissions and fossil raw materials depletion are considered major threats to humanity
In the simulation of the hybrid liquid-liquid extraction assisted ordinary distillation of Figure 1 the recovery of levulinic acid (LA) in the extractor was fixed at 99% on mass basis and it was achieved with a solvent to feed ratio of 1.2
In the present study the separation of LA from a model solution obtained from acid hydrolysis of lignocellulosic biomass is considered
Summary
The increase of carbon dioxide emissions and fossil raw materials depletion are considered major threats to humanity. The development of modern societies was initially based on the usage of coal, followed by oil and gas. Their conversion to derived-fossil products can be seen everywhere in daily life Our societies extracted fossilized-carbon leading to significant and unbalanced carbon emissions. To mitigate this effect, efforts worldwide are focused on valorizing biomass [1,2,3,4], which was the first raw material used by mankind
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