Spectroscopic characterization of dissolved organic matter from sludge solubilization treatment by micro-bubble technology

In this study, the micro-bubble were used for the sludge solubilization process. In order to investigate the enhancement of sludge solubilization by micro-bubbles, the performance of the micro-bubble system and a conventional bubble system (the control one) was compared in terms of sludge solubiliza...

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Bibliographic Details
Published in:Ecological engineering 2017-09, Vol.106, p.94-100
Main Authors: Wang, Lei, Li, Ying-Jun, Xiong, Ying, Mao, Xu-Hui, Zhang, Lie-Yu, Xu, Jian-Feng, Tan, Wen-Bing, Wang, Jin-Sheng, Li, Tong-Tong, Xi, Bei-Dou, Wang, Di-Hua
Format: Article
Language:English
Subjects:
Aeration
Analytical methods
Bacteria
Bubbles
Channel pores
Control
Dissolved organic matter
DNA
Electron microscopy
Excitation-emission matrix (EEM) spectra
Fluorescence
Fluorescence spectroscopy
Gel electrophoresis
Gels
Inspection
Mass transfer
Micro-bubble
Microbial activity
Microorganisms
Nucleotide sequence
Organic chemistry
PCR
PCR-DGGE
Polymerase chain reaction
Proteins
Reactors
Scanning electron microscopy
SEM
Sludge
Sludge solubilization
Sludge treatment
Solubilization
Suspended particulate matter
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Summary:In this study, the micro-bubble were used for the sludge solubilization process. In order to investigate the enhancement of sludge solubilization by micro-bubbles, the performance of the micro-bubble system and a conventional bubble system (the control one) was compared in terms of sludge solubilization. The performance in the micro-bubble reactor was much better than the control one, as a result total suspended solid (TSS) was rapidly decreased to 2325.19TSSL−1. To investigate the mechanism of the sludge solubilization, the constituents of dissolved organic matter (DOM) from the sludge solubilization was investigated using fluorescence spectroscopy. Compared to the DOM from the reactor using conventional bubbles, the DOM from the micro-bubbles reactor contained higher protein- and humic-like substances. Moreover, the total integrated fluorescence intensity (TOT) were constantly decreased by 18.37% in the control one and increased by 34.39% in the micro-bubble reactor. The results mean that the sludge were effectively solubilized, and organic molecules were released. Polymerase chain reactions-denaturing gradient gel electrophoresis (PCR-DGGE) was used to analyse the microbial communities after a micro-bubble process. The dominant bacteria in the micro-bubble reactor were identified as Delftia sp., Sphenophorus levis and Stenotrophomonas sp., which were benefit to the cleavage of refractory organics. Scanning Electron Microscopy (SEM) inspection showed that the sludge after the micro-bubble process presented more pores and channels on the sludge surface; the micro-bubbles was good at forming zoogloea, which was helpful for oxygen and mass transfer. Overall, the results indicate that the micro-bubbles aeration could improve the solubilization of sludge.
ISSN:0925-8574
1872-6992
DOI:10.1016/j.ecoleng.2017.05.032