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Effects of microbial cells and their associated extracellular polymeric substances on the bio-flocculation of kaolin and quartz
https://orcid.org/0000-0003-4369-4439
AbstractMicrobes can function as bio-surfactants to selectively flocculate or disperse particles, and separate minerals. In the present study, Bacillus licheniformis cells and metabolite were used to change the settling behavior of kaolin and quartz. Moreover, to perform a more detailed study on the metabolite, settling effect of its protein and polysaccharide constituents were also investigated separately. In the best condition, about 40% improvement in kaolin settling was observed using bacterial cells and metabolite at pH=7 and 3, respectively. Also, enhancement in quartz sedimentation using the same bio-flocculants was >50% at pH=1–3. In addition, polysaccharide was more effective in kaolin flocculation, while protein was more influential in quartz agglomeration. Results of adsorption tests suggested that all of the bio-surfactants were more inclined to be adsorbed on quartz, and generally, increasing the pH value decreased the reagent adsorption and mineral flocculation. Moreover, although reducing the mineral concentration from 50 to 20g/l improved the settling of both kaolin and quartz, the highest difference (50%) in their sedimentation occurred at the higher mineral concentration. Finally, according to the statistics, clay concentration was the most influential parameter on kaolin, and the dispersion pH was the most effective variable in quartz bio-flocculation.
HighlightsSettling of kaolin and quartz were biologically enhanced 40 and 50%, respectively.Adsorption of bioreagents and mineral bioflocculation are strongly pH dependent.Bacterial metabolite caused 50% difference between kaolin and quartz settling.Polysaccharide is the effective component of metabolite in kaolin bioflocculation.Protein is the influential constituent of metabolite in quartz bioflocculation.
Effects of microbial cells and their associated extracellular polymeric substances on the bio-flocculation of kaolin and quartz
https://orcid.org/0000-0003-4369-4439
AbstractMicrobes can function as bio-surfactants to selectively flocculate or disperse particles, and separate minerals. In the present study, Bacillus licheniformis cells and metabolite were used to change the settling behavior of kaolin and quartz. Moreover, to perform a more detailed study on the metabolite, settling effect of its protein and polysaccharide constituents were also investigated separately. In the best condition, about 40% improvement in kaolin settling was observed using bacterial cells and metabolite at pH=7 and 3, respectively. Also, enhancement in quartz sedimentation using the same bio-flocculants was >50% at pH=1–3. In addition, polysaccharide was more effective in kaolin flocculation, while protein was more influential in quartz agglomeration. Results of adsorption tests suggested that all of the bio-surfactants were more inclined to be adsorbed on quartz, and generally, increasing the pH value decreased the reagent adsorption and mineral flocculation. Moreover, although reducing the mineral concentration from 50 to 20g/l improved the settling of both kaolin and quartz, the highest difference (50%) in their sedimentation occurred at the higher mineral concentration. Finally, according to the statistics, clay concentration was the most influential parameter on kaolin, and the dispersion pH was the most effective variable in quartz bio-flocculation.
HighlightsSettling of kaolin and quartz were biologically enhanced 40 and 50%, respectively.Adsorption of bioreagents and mineral bioflocculation are strongly pH dependent.Bacterial metabolite caused 50% difference between kaolin and quartz settling.Polysaccharide is the effective component of metabolite in kaolin bioflocculation.Protein is the influential constituent of metabolite in quartz bioflocculation.
Effects of microbial cells and their associated extracellular polymeric substances on the bio-flocculation of kaolin and quartz
https://orcid.org/0000-0003-4369-4439
AbstractMicrobes can function as bio-surfactants to selectively flocculate or disperse particles, and separate minerals. In the present study, Bacillus licheniformis cells and metabolite were used to change the settling behavior of kaolin and quartz. Moreover, to perform a more detailed study on the metabolite, settling effect of its protein and polysaccharide constituents were also investigated separately. In the best condition, about 40% improvement in kaolin settling was observed using bacterial cells and metabolite at pH=7 and 3, respectively. Also, enhancement in quartz sedimentation using the same bio-flocculants was >50% at pH=1–3. In addition, polysaccharide was more effective in kaolin flocculation, while protein was more influential in quartz agglomeration. Results of adsorption tests suggested that all of the bio-surfactants were more inclined to be adsorbed on quartz, and generally, increasing the pH value decreased the reagent adsorption and mineral flocculation. Moreover, although reducing the mineral concentration from 50 to 20g/l improved the settling of both kaolin and quartz, the highest difference (50%) in their sedimentation occurred at the higher mineral concentration. Finally, according to the statistics, clay concentration was the most influential parameter on kaolin, and the dispersion pH was the most effective variable in quartz bio-flocculation.
HighlightsSettling of kaolin and quartz were biologically enhanced 40 and 50%, respectively.Adsorption of bioreagents and mineral bioflocculation are strongly pH dependent.Bacterial metabolite caused 50% difference between kaolin and quartz settling.Polysaccharide is the effective component of metabolite in kaolin bioflocculation.Protein is the influential constituent of metabolite in quartz bioflocculation.
Effects of microbial cells and their associated extracellular polymeric substances on the bio-flocculation of kaolin and quartz
Ghashoghchi, Ramin Akbari (author) / Hosseini, Mohammad Raouf (author) / Ahmadi, Ali (author)
Applied Clay Science ; 138 ; 81-88
2017-01-03
8 pages
Article (Journal)
Electronic Resource
English
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