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A novel approach for sludge deep-dewatering via flowing-out enhancement but not relying on cell lysis and bound water release

Water Research, ISSN: 0043-1354, Vol: 257, Page: 121743
2024
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Article Description

Effective deep-dewatering is crucial for wastewater sludge management. Currently, the dominant methods focus on promoting cell lysis to release intracellular water, but these techniques often lead to secondary pollution and require stringent conditions, limiting their practical use. This study explores an innovative method using a commercially available complex quaternary ammonium salt surfactant, known as G-agent. This agent remarkably reduces the sludge water content from 98.6 % to 56.8 % with a low dosage (50 mg/g DS) and under neutral pH conditions. This approach surpasses Fenton oxidation in terms of dewatering efficiency and avoids the necessity for cell lysis and bound water release, thereby reducing the risk of secondary pollution in the filtrate, including heavy metals, nitrogen, phosphorus, and other contaminants. The G-agent plays a significant role in destabilizing flocs and enhancing flocculation during the conditioning and initial dewatering stages, effectively reducing the solid-liquid interfacial affinity of the sludge. In the compression filtration stage, the agent's solidification effect is crucial in forming a robust skeleton that improves pore connectivity within the filter cake, leading to increased water permeability, drainage performance and water flow-out efficiency. This facilitates deep dewatering of sludge without cell lysis. The study reveals that the G-agent primarily improves water flow-out efficiency rather than water flowability, indicating that cell lysis and bound water release are not indispensable prerequisites for sludge deep-dewatering. Furthermore, it presents an encouraging prospect for overcoming the limitations associated with conventional sludge deep-dewatering processes.

Bibliographic Details

Zhang, Hao; Liu, Wen-Hui; Gao, Yun-Yan; Sun, Ping; Zeng, Yuan-Ping; Ma, Lin-Lin; Wu, Jiang-Nan; Zhou, Shun-Gui; Cui, Xi-Qin; Zeng, Raymond Jianxiong; Wang, Hou-Feng

Elsevier BV

Environmental Science; Engineering

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