Recent Trends in Biogenic Gas, Waste and Wastewater Fermentation [Editorial]
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Recent Trends in Biogenic Gas, Waste and Wastewater Fermentation [Editorial]Data
2022Cita bibliográfica
Rene, E.R.; Veiga, M.C.; Kennes, C. Recent Trends in Biogenic Gas, Waste and Wastewater Fermentation. Fermentation 2022, 8, 347. https://doi.org/10.3390/fermentation8080347
Resumo
[Abstract] In recent years, the optimization of bioprocesses for the removal of pollutants from industrial biogenic gas emissions, waste and wastewater has been the focus of intensive research. Recently developed technologies not only aim to remove such pollutants, but also to valorize them, whenever possible, through their bioconversion into useful added-value products. In this domain of progressive research, lab-, pilot-, and demonstration-scale studies are dealing with the fermentation of biogenic gases (e.g., CO2, CO, and CH4), waste or wastewater to produce a range of biofuels and valuable products, based on the activity of pure or mixed cultures of native or recombinant aerobic and anaerobic bacteria, algae, or yeasts as biocatalysts. Waste can also be converted to syngas, which can subsequently be fermented as well. A broad range of bioproducts can be obtained, e.g., biofuels and several other platform chemicals and products. This environmentally-friendly biorefinery approach addresses the need to build modern societies according to the concept of a circular economy, and yields products of commercial interest. Different examples of such approaches are described in this collection of scientific reports.
Palabras chave
Acetogenic bacteria
Biomass
Biorefinery
Carbon dioxide
Constructed wetlands
Greenhouse gas
Syngas
Waste
Wastewater
Oleaginous yeast
Biomass
Biorefinery
Carbon dioxide
Constructed wetlands
Greenhouse gas
Syngas
Waste
Wastewater
Oleaginous yeast
Descrición
This article belongs to the Special Issue Recent Trends in Biogenic Gas, Waste and Wastewater Fermentation
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Atribución 4.0 Internacional (CC BY 4.0)
ISSN
2311-5637