Abstract
Solid-state fermentation (SSF) is, by definition, a technology carried out in the absence or near absence of free water. Therefore, it allows the use of solid materials as substrates for further biotransformation. SSF has gained attention in the last years, being reported as a promising eco-technology to produce bioproducts of industrial interest using solid biomass (wastes and by-products). Main advantages over conventional submerged fermentation rely on the lower water use and energy requirements,which generates minimum residual streams. However, drawbacks often appear,related to poor homogeneity and energy and mass transfer limitations, hindering the process yield and the downstream of the produced bioproducts. Despite the difficulties, many successful processes have been reported on the production of a variety of bioproducts such as hydrolytic enzymes, mostly carbohydrases for bioethanol production, and to a lesser extent, aromas, biosurfactants, biopesticides, bioplastics, organic acids or phenolic compounds. Most of the reported research focuses on process development at a small scale; however, the main challenges to overcome in SSF are related to the upscaling and the development of consistent and continuous operation. In this work, the main advances in the production of valuable/innovative bioproducts are presented and discussed.
Highlights
One of the main interests of the society in the last decades is the valorization of waste
Legislations such as Landfill Directive 1999/31/EC and Waste Directive 2008/98/EC arise in order to reduce the organic waste disposal into landfill and promoting a new waste management hierarchy that promotes the use of wastes as secondary raw materials
In addition to hydrolytic enzymes, other attractive but less studied bioproducts obtained by Solid-state fermentation (SSF) are antibiotics, organic acids, biopesticides, aromas, biofuels, bioplastics and biosurfactants (Table 2) (Jimenez-Peñalver et al, 2016; Ballardo et al, 2017; Cerda et al, 2017b; Martinez-Ávila et al, 2017)
Summary
One of the main interests of the society in the last decades is the valorization of waste. SSF has gained attention in the last years being reported as a promising eco-technology that allows obtaining bioproducts of industrial interest using solid biomass (wastes and by-products). Many successful processes have been reported on the production of a variety of bioproducts such as hydrolytic enzymes, mostly carbohydrases for bioethanol production, and to a lesser extent, aromas, biosurfactants, biopesticides, bioplastics, organic acids or phenolic compounds.
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