Valorization of Distillery Stillage for Bioenergy Production: A Review

In alcohol distilleries, the amount of distillery stillage generated can be up to 15 times larger than the amount of alcohol produced. The stillage has high concentrations of organics and nitrogen, a low pH, and a dark brown color. Currently, stillage is mainly used for soil fertilization. For this...

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Published inEnergies (Basel) Vol. 14; no. 21; p. 7235
Main Authors Zielińska, Magdalena, Bułkowska, Katarzyna, Mikucka, Wioleta
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.11.2021
Subjects
Alcohol
Alkalinity
Alternative energy sources
Amino acids
Anaerobic digestion
Anaerobic processes
Anaerobic treatment
Antibacterial activity
Bacteria
Biochemical fuel cells
bioelectrochemical treatment
bioethanol
Biofuels
Biogas
biohydrogen
Biological activity
biomethane
Bioreactors
By products
Carbohydrates
Cellulose
Chemical oxygen demand
Complex compounds
Consumption
Cooling
Distilleries
Energy recovery
Environmental impact
Ethanol
Feeds
Fermentation
Fertilization
Fuel technology
Grain
Industrial wastes
Lignin
Melanoidin
Microorganisms
Nuclear fuels
Organic compounds
Pollutants
Pollution control
Pollution dispersion
Polyphenols
Soil fertility
Stillage
Sulfur
Thickening
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Summary:In alcohol distilleries, the amount of distillery stillage generated can be up to 15 times larger than the amount of alcohol produced. The stillage has high concentrations of organics and nitrogen, a low pH, and a dark brown color. Currently, stillage is mainly used for soil fertilization. For this purpose, it requires thickening and is used seasonally, which creates storage problems and transport costs. To reduce environmental pollution, physicochemical and biological processes have been employed for the treatment of distillery stillage. However, according to bioeconomy principles, the stillage should be transformed into value-added products. Therefore, this review paper focuses on methods of stillage processing that enable energy recovery. Due to its high content of organic compounds, stillage is often used as a raw material for biogas production. Accordingly, anaerobic digestion of stillage is discussed, including an overview of the bioreactors used and the effects of operational parameters on organics removal and biogas production. The necessity of integrating anaerobic stillage treatment with other treatment processes is presented. As complex compounds that are present in the stillage (mainly polyphenols and melanoidin) are difficult to biodegrade and have antibacterial activities, the effect of their recovery on biogas production is described. Next, the possibility of converting distillery stillage to bioethanol and biohydrogen is presented. In addition, bioelectrochemical treatment of distillery stillage using microbial fuel cells is discussed. For all these treatment methods, current challenges and opportunities are given.
ISSN:1996-1073
1996-1073
DOI:10.3390/en14217235