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Synergetic disintegration of waste activated sludge: improvement of the anaerobic digestion and hygienization of sludge
K. Grübel, S. Wacławek, A. Machnicka, E. Nowicka,
Language English Country England, Great Britain
Document type Journal Article
- MeSH
- Anaerobiosis MeSH
- Biofuels analysis MeSH
- Bioreactors microbiology MeSH
- Water Purification methods MeSH
- Hydrolysis MeSH
- Hydrogen-Ion Concentration MeSH
- Biological Oxygen Demand Analysis MeSH
- Methane biosynthesis MeSH
- Waste Disposal, Fluid methods MeSH
- Sewage chemistry microbiology MeSH
- Sanitation methods MeSH
- Publication type
- Journal Article MeSH
The main aim of this study was to investigate the impact of a hybrid disintegration process with the use of alkalization and freezing by dry ice on waste activated sludge (WAS) and on the course of the process of mesophilic methane fermentation. In order to achieve the mentioned goal, various analytical techniques were used for assessment of the sludge disintegration and its influence on the further biogas production. As a result of the investigation, it was found that the chemical-thermal process of destruction of WAS results in an increased concentration of organic compounds in the supernatant (expressed as a change in the value of the soluble chemical oxygen demand - SCOD). The use of disintegrated WAS and feeding of the material into the fermentation digester influences, depending on its proportion by volume, the production of biogas and the biogas yield (higher biogas production by ca. 39% in comparison to blank sample was achieved with the appropriately disintegrated sludge). The hybrid process is simple and easy to implement in the full technical scale and does not influence or change the pH value of the sludge feed into the fermentation chambers (the dry ice neutralizes the high pH of the sludge). Additionally, it was determined that the herein developed process, can improve hygienization of the digested sludge.
References provided by Crossref.org
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- $a The main aim of this study was to investigate the impact of a hybrid disintegration process with the use of alkalization and freezing by dry ice on waste activated sludge (WAS) and on the course of the process of mesophilic methane fermentation. In order to achieve the mentioned goal, various analytical techniques were used for assessment of the sludge disintegration and its influence on the further biogas production. As a result of the investigation, it was found that the chemical-thermal process of destruction of WAS results in an increased concentration of organic compounds in the supernatant (expressed as a change in the value of the soluble chemical oxygen demand - SCOD). The use of disintegrated WAS and feeding of the material into the fermentation digester influences, depending on its proportion by volume, the production of biogas and the biogas yield (higher biogas production by ca. 39% in comparison to blank sample was achieved with the appropriately disintegrated sludge). The hybrid process is simple and easy to implement in the full technical scale and does not influence or change the pH value of the sludge feed into the fermentation chambers (the dry ice neutralizes the high pH of the sludge). Additionally, it was determined that the herein developed process, can improve hygienization of the digested sludge.
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- $a Wacławek, Stanisław $u b Centre for Nanomaterials , Advanced Technologies and Innovation, Technical University of Liberec , Czech Republic.
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- $a Machnicka, Alicja $u a Faculty of Materials, Civil and Environmental Engineering , University of Bielsko-Biala , Bielsko-Biala , Poland.
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