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- Title
Optimization and mechanism of the novel eco-friendly additives for solidification and stabilization of dredged sediment.
- Authors
Deng, Yu-Jia; Yue, Zhi-Xuan; Wang, Zi-Jie; Huang, Qi; Yang, Xiao-Li
- Abstract
Solidification/stabilization technology is commonly used in the rehabilitation of dredged sediment due to its cost-effectiveness. However, traditional solidification/stabilization technology relies on cement, which increases the risk of soil alkalization and leads to increased CO2 emissions during cement production. To address this issue, this study proposed an innovative approach by incorporating bentonite and citrus peel powder as additives in the solidifying agent, with the aim of reducing cement usage in the dredged sediment solidification process. The research results showed that there is a significant interaction among cement, bentonite, and citrus peel powder. After response surface methodology (RSM) optimization, the optimal ratio of the cementitious mixture was determined to be 14.86 g/kg for cement, 5.85 g/kg for bentonite, and 9.31 g/kg for citrus peel powder. The unconfined compressive strength (UCS) of the solidified sediments reached 3144.84 kPa. The reaction products of the solidification materials, when mixed with sediment, facilitated adsorption, gelation, and network structure connection. Simultaneously, the leaching concentration of heavy metals was significantly decreased with five heavy metals (Zn, As, Cd, Hg, and Pb) leaching concentrations decreasing by more than 50%, which met the prescribed thresholds for green planting. This study demonstrated the ecological benefits of employing bentonite and citrus peel powder in the solidification process of dredged sediment, providing an effective solution for sediment solidification. The addition of citrus peel powder and bentonite to the traditional cement-based sediment significantly interacted with the development of UCS in the cement-based sediment. CAH, CSH, and LMP contributed significantly to the development of UCS in the solidified sediment. Moreover, when incorporated with bentonite and orange peel powder, the leaching concentration of heavy metals in the solidified sediment also met the requirements of green planting soil.
- Subjects
ANALYSIS of heavy metals; BENTONITE; SOLIDIFICATION; SEDIMENTS; RESPONSE surfaces (Statistics); ORANGE peel; CEMENT industries
- Publication
Environmental Science & Pollution Research, 2024, Vol 31, Issue 17, p25964
- ISSN
0944-1344
- Publication type
Article
- DOI
10.1007/s11356-024-32865-2