The change of water content and role of microbe in the sludge drying process

In this study, the pure terephthalic acid sludge was treated by a drying process which was an economical and environmentally method. The water change and metabolic pathways for bacterial community function prediction were analyzed. The microbial community changes were studied by high-throughput sequ...

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Published inJournal of environmental management Vol. 286; p. 112254
Main Authors Tian, Ganpei, Shen, Yue, Hu, Xiuren, Zhang, Tong, Zhang, Limin, Bian, Bo
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 15.05.2021
Subjects
Bioreactors
Desiccation
Dominant bacteria
Drying
Key factor
Metabolic pathways
Nitrogen - analysis
Sewage
Waste Water
Water
Water change
Metabolic pathways
Water change
Key factor
Drying
Dominant bacteria
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Abstract In this study, the pure terephthalic acid sludge was treated by a drying process which was an economical and environmentally method. The water change and metabolic pathways for bacterial community function prediction were analyzed. The microbial community changes were studied by high-throughput sequencing to draw the dynamic succession model. Then multiple statistics was used to determine the key factors of the reduction. The results showed that the main stage of water loss in the PTA sludge drying process was the high temperature period where the water lost by evaporation accounted for more than 90% of the total removal. The main metabolic pathways for bacterial community function were amino acid (7.72%–8.71% of Kyoto encyclopedia of genes and genomes relative abundance and 8.26%–9.51% of Cluster of orthologous groups of proteins relative abundance) and carbohydrate metabolism. The model describing the dynamic succession of microbial communities showed that the dominant bacteria changed from Nitrospira, Novosphingobium and Azohydromonas to Pseudomonas, Paeniglutamicibac and Pelotomaculum. The key factors for water loss were Gemmatimonas, Novosphingobium and Azohydromonas with the correlation coefficients of 0.887, 0.772, 0.783, respectively; the key factors for dry matter loss were Pelotomaculum, total organic matter, dissovlved organic carbon and carbon/nitrogen ratio; the key factors for toxic substance loss were Brevundimonas, Novosphingobium and Gemmatimonas. These results provided theoretical support for the application and demonstration for hazardous waste sludge reduction. [Display omitted] ●The pure terephthalic acid sludge was reduced by a drying process.●The main stage of water loss was the high temperature period by evaporation.●Dynamic change of microbial communities during drying process was proposed.●The main metabolic pathways were amino acid and carbohydrate.●The key of moisture reduction was Gemmatimonas, Novosphingobium and Azohydromonas.
AbstractList In this study, the pure terephthalic acid sludge was treated by a drying process which was an economical and environmentally method. The water change and metabolic pathways for bacterial community function prediction were analyzed. The microbial community changes were studied by high-throughput sequencing to draw the dynamic succession model. Then multiple statistics was used to determine the key factors of the reduction. The results showed that the main stage of water loss in the PTA sludge drying process was the high temperature period where the water lost by evaporation accounted for more than 90% of the total removal. The main metabolic pathways for bacterial community function were amino acid (7.72%–8.71% of Kyoto encyclopedia of genes and genomes relative abundance and 8.26%–9.51% of Cluster of orthologous groups of proteins relative abundance) and carbohydrate metabolism. The model describing the dynamic succession of microbial communities showed that the dominant bacteria changed from Nitrospira, Novosphingobium and Azohydromonas to Pseudomonas, Paeniglutamicibac and Pelotomaculum. The key factors for water loss were Gemmatimonas, Novosphingobium and Azohydromonas with the correlation coefficients of 0.887, 0.772, 0.783, respectively; the key factors for dry matter loss were Pelotomaculum, total organic matter, dissovlved organic carbon and carbon/nitrogen ratio; the key factors for toxic substance loss were Brevundimonas, Novosphingobium and Gemmatimonas. These results provided theoretical support for the application and demonstration for hazardous waste sludge reduction. [Display omitted] ●The pure terephthalic acid sludge was reduced by a drying process.●The main stage of water loss was the high temperature period by evaporation.●Dynamic change of microbial communities during drying process was proposed.●The main metabolic pathways were amino acid and carbohydrate.●The key of moisture reduction was Gemmatimonas, Novosphingobium and Azohydromonas.
In this study, the pure terephthalic acid sludge was treated by a drying process which was an economical and environmentally method. The water change and metabolic pathways for bacterial community function prediction were analyzed. The microbial community changes were studied by high-throughput sequencing to draw the dynamic succession model. Then multiple statistics was used to determine the key factors of the reduction. The results showed that the main stage of water loss in the PTA sludge drying process was the high temperature period where the water lost by evaporation accounted for more than 90% of the total removal. The main metabolic pathways for bacterial community function were amino acid (7.72%-8.71% of Kyoto encyclopedia of genes and genomes relative abundance and 8.26%-9.51% of Cluster of orthologous groups of proteins relative abundance) and carbohydrate metabolism. The model describing the dynamic succession of microbial communities showed that the dominant bacteria changed from Nitrospira, Novosphingobium and Azohydromonas to Pseudomonas, Paeniglutamicibac and Pelotomaculum. The key factors for water loss were Gemmatimonas, Novosphingobium and Azohydromonas with the correlation coefficients of 0.887, 0.772, 0.783, respectively; the key factors for dry matter loss were Pelotomaculum, total organic matter, dissovlved organic carbon and carbon/nitrogen ratio; the key factors for toxic substance loss were Brevundimonas, Novosphingobium and Gemmatimonas. These results provided theoretical support for the application and demonstration for hazardous waste sludge reduction.
ArticleNumber 112254
Author Bian, Bo
Hu, Xiuren
Zhang, Tong
Zhang, Limin
Tian, Ganpei
Shen, Yue
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CitedBy_id crossref_primary_10_3389_fmicb_2021_740721
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crossref_primary_10_1016_j_jhazmat_2023_130762
crossref_primary_10_3390_en17010134
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Keywords Metabolic pathways
Water change
Key factor
Drying
Dominant bacteria
Language English
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Snippet In this study, the pure terephthalic acid sludge was treated by a drying process which was an economical and environmentally method. The water change and...
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StartPage 112254
SubjectTerms Bioreactors
Desiccation
Dominant bacteria
Drying
Key factor
Metabolic pathways
Nitrogen - analysis
Sewage
Waste Water
Water
Water change
Title The change of water content and role of microbe in the sludge drying process
URI https://dx.doi.org/10.1016/j.jenvman.2021.112254
https://www.ncbi.nlm.nih.gov/pubmed/33676131
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