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Potential Role of Sequential Solid-State and Submerged-Liquid Fermentations in a Circular Bioeconomy

José Pablo López‐Gómez, Joachim Venus

2021Fermentation72 citationsDOIOpen Access PDF

Abstract

An efficient processing of organic solid residues will be pivotal in the development of the circular bioeconomy. Due to their composition, such residues comprise a great biochemical conversion potential through fermentations. Generally, the carbohydrates and proteins present in the organic wastes cannot be directly metabolized by microorganisms. Thus, before fermentation, enzymes are used in a hydrolysis step to release digestible sugars and nitrogen. Although enzymes can be efficiently produced from organic solid residues in solid-state fermentations (SsF), challenges in the development and scale-up of SsF technologies, especially bioreactors, have hindered a wider application of such systems. Therefore, most of the commercial enzymes are produced in submerged-liquid fermentations (SmF) from expensive simple sugars. Instead of independently evaluating SsF and SmF, the review covers the option of combining them in a sequential process in which, enzymes are firstly produced in SsF and then used for hydrolysis, yielding a suitable medium for SmF. The article reviews experimental work that has demonstrated the feasibility of the process and underlines the benefits that such combination has. Finally, a discussion is included which highlights that, unlike typically perceived, SsF should not be considered a counterpart of SmF but, in contrast, the main advantages of each type of fermentation are accentuated in a synergistic sequential SsF-SmF.

Topics & Concepts

Solid-state fermentationFermentationBiochemical engineeringBioreactorBiotechnologyProcess (computing)ChemistryHydrolysisPulp and paper industryFood scienceComputer scienceBiochemistryBiologyEngineeringOrganic chemistryOperating systemBiofuel production and bioconversionMicrobial Metabolic Engineering and BioproductionEnzyme Production and Characterization
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