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Title Methods for Intensifying Biogas Production from Waste: A Scientometric Review of Cavitation and Electrolysis Treatments
Authors Chubur, Viktoriia Serhiivna  
Danylov, D.
Chernysh, Yelyzaveta Yuriivna  
Pliatsuk, Leonid Dmytrovych  
Shtepa, V.
Haneklaus, N.
Roubik, H.
ORCID http://orcid.org/0000-0003-4871-1162
http://orcid.org/0000-0003-4103-4306
http://orcid.org/0000-0003-0095-5846
Keywords bioprocesses
biogas production
cavitation
electrolysis
microbiological methods
Type Article
Date of Issue 2022
URI https://essuir.sumdu.edu.ua/handle/123456789/90119
Publisher MDPI
License Creative Commons Attribution 4.0 International License
Citation Chubur, V.; Danylov, D.; Chernysh, Y.; Plyatsuk, L.; Shtepa, V.; Haneklaus, N.; Roubik, H. Methods for Intensifying Biogas Production from Waste: A Scientometric Review of Cavitation and Electrolysis Treatments. Fermentation 2022, 8, 570. https://doi.org/10.3390/fermentation8100570
Abstract This article presents future trends in research using microbiological methods to intensify bioprocesses for biogas production. The pretreatment by combinations of physical and chemical methods, such as cavitation and electrolysis, is considered. The approach of the article involved reviewing the residual area on the intensification technologies of anaerobic digestion with current methods to improve the quality and quantity of biogas. The most valuable reported positive results of the pretreatment of biological raw materials in the cavitation process were reviewed and are presented here. A model of the effect of electrolysis on the species diversity of bacteria in anaerobic digestion was developed, and changes in the dominance of the ecological and trophic systems were revealed on the basis of previous studies. The stimulating effect on biogas yield, reduction in the stabilization period of the reactor, and inactivation of microorganisms at lower temperatures is associated with different pretreatment methods that intensify anaerobic digestion. More research is recommended to focus on the electrolysis treatment of different types of waste and their ratios with optimization of regime parameters, as well as in combination with other pretreatments to produce biomethane and biohydrogen in larger quantities and in better qualities.
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