期刊
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
卷 29, 期 10, 页码 14819-14829出版社
SPRINGER HEIDELBERG
DOI: 10.1007/s11356-021-16404-x
关键词
Sewage sludge; Conditioning; Persulfate oxidation; Skeleton builder; Dewaterability; Extracellular polymeric substances
资金
- doctoral research of launch fund project of Hubei University of Technology [BSQD2016030]
- National Natural Science Foundation of China youth fund project [51508214]
- Three Gorges follow-up research project [2017HXXY-05]
The study examined the impact of a composite conditioner, Fe2+/SPS combined with phosphogypsum, on sludges with varying organic and solid contents. Results showed that oxidation played a major role in conditioning, especially for higher organic matter content. Changes in phosphogypsum significantly affected the optimal molar ratio and dosage of Fe2+/SPS, with sludge containing more solids requiring higher Fe2+/SPS dosage for stronger oxidation.
Sludge conditioning is important for improved dewatering, with the sludge characteristics impacting the effect of conditioning. A composite conditioner, Fe2+-activated sodium persulfate (Fe2+/SPS) combined with phosphogypsum (PG), was used to examine its impact on sludges with different organic contents (34.6-43.8%) or different solid contents (2.8-5.9%). Response surface optimization analysis shows that when the best conditioning is achieved, the reduction of the specific resistance to filtration (SRF) is not sensitive to organic matter content, but the dewatering performance of the sludge is greatly affected by the solid content. The oxidation role of Fe2+/SPS and the skeleton builder role of PG together affect the conditioning, oxidation playing a major role in conditioning, especially for greater organic matter content. The organic content (maximum eta(SOL) value was 0.32) also affects the effectiveness of the skeleton builder more than the solid content (Maximum eta(SOL) value was 0.25). Changes in PG significantly impacts the optimal molar ratio and dosage of Fe2+/SPS. Sludge with greater solid content requires greater Fe2+/SPS dosage to provide stronger oxidation to destroy flocs, and the maximum Fe2+:SPS molar ratio was 1.14 with solid content of 5.9 wt%. The composite conditioning decreases the content of extracellular polymeric substances and proteins/polysaccharides. This study provides new insight into the relationship between the oxidation role of Fe2+/SPS and the skeleton builder role of PG for sludge conditioning strategies according to the optimal conditions.
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