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http://dx.doi.org/10.17137/korrae.2019.27.2.13

Effect of Wet Milling on Scum Generation and Solubilization in Batch Ozone Reaction Using Digested Sludge  

Hong, Seong-Min (Department of Energy and Environment System Engineering, University of Seoul)
Lee, Dong-Hoon (Department of Energy and Environment System Engineering, University of Seoul)
Kim, Choong-Gon (Bio Resource Center, Institute for Advanced Engineering)
Shin, Hyun-Gon (Department of Energy and Environmental Engineering, Shinhan University)
Publication Information
Journal of the Korea Organic Resources Recycling Association / v.27, no.2, 2019 , pp. 13-18 More about this Journal
Abstract
Sewage sludge treatment is increasing every year due to improvement of living and urbanization. However, interest in anaerobic digestion which is one of the recycling technology. There is anaerobic digestion of increasing due to limitations of ocean dumping and final disposal. But, the limit of anaerobic digestion efficiency due to the advanced treatment of sewage has been limited, and studies for solubilization technology have been actively conducted. Therefore, in this study, we aimed to investigate the variation of generation of scum and the solubilization efficiency in the application of pre-treatment of ozone reaction and the change of properties of digested sludge with wet milling. There are results of VS/TS increased by 4.4% and $SCOD_{cr}/TCOD_{cr}$ increased by 9.4% by wet milling alone. In addition, the increase of the specific surface area due to which the reduction of the particle size of the solid content of the sludge in the ozone reaction caused by wet milling decreased the generation rate of scum at 14.3% and increased VS/TS at 2.1%, compared with the ozone reaction alone. From these results, it is expected that the application of wet milling can be increased the contact efficiency with solids in the sludge during ozone reaction with suppress scum and increase the efficiency of the subsequent process in anaerobic digestion.
Keywords
Digested Sludge; Ozone; Solubilization; Batch reactor; Wet milling; Scum;
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