Concern about environmental problems and climate change has led to increasing efforts toward a transition of the global energy matrix to renewable sources. In this sense, biodiesel is a renewable and alternative biofuel proposal and castor bean and jatropha are interesting non-edible raw materials for its production owing to their high fatty acid content. Transesterification is the most common process applied to industrial-scale biodiesel production owing to its attractive economic characteristics. This process can be catalyzed by chemical (homogeneous or heterogeneous) or biochemical (enzymatic) catalysts. The choice of raw material, as well as the production route of biodiesel, will significantly influence the process parameters. Considering the importance of biodiesel production in Brazil, the present work explores biodiesel production routes focusing on these non-edible raw materials (jatropha and castor bean) and compares them with the process using soy bean, as this is one of the most used worldwide raw materia. In addition, an extensive literature review was performed and the software Microsoft Power BI Desktop was used to model and analyze the selected works, grouping them according to the pattern of each route's influence on process parameters. In addition, the technical scores of each route were determined. The homogeneous chemical route presented better scores and the most interesting parameters for all raw materials; however, considering the technical and environmental advantages related to biochemical and G Baioni e Silva et al.
Xylooligosaccharides (XOS) are nondigestible compounds of great interest for food and pharmaceutical industries due to their beneficial prebiotic, antibacterial, antioxidant, and antitumor properties. The market size of XOS is increasing significantly, which makes its production from lignocellulosic biomass an interesting approach to the valorization of the hemicellulose fraction of biomass, which is currently underused. This review comprehensively discusses XOS production from lignocellulosic biomass, aiming at its application in integrated biorefineries. A bibliometric analysis is carried out highlighting the main players in the field. XOS production yields after different biomass pretreatment methods are critically discussed using Microsoft PowerBI® (2.92.706.0) software, which involves screening important trends for decision-making. Enzymatic hydrolysis and the major XOS purification strategies are also explored. Finally, the integration of XOS production into biorefineries, with special attention to economic and environmental aspects, is assessed, providing important information for the implementation of biorefineries containing XOS in their portfolio.
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