Chlorinated Methylsiloxanes Generated in the Papermaking Process and Their Fate in Wastewater Treatment Processes

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• 作者：Lin Xu ; Xudan He ; Liqin Zhi ; Chunhui Zhang ; Tao Zeng ; Yaqi Cai
• 刊名：Environmental Science & Technology
• 出版年：2016
• 出版时间：December 6, 2016
• 年：2016
• 卷：50
• 期：23
• 页码：12732-12741
• 全文大小：513K
• ISSN：1520-5851

文摘

Simulated experiments indicated that chlorinated volatile methylsiloxanes, detected by Q-TOF GC/MS, could be generated in a pulp-bleaching process, where poly(dimethylsiloxane)s fluids with volatile methylsiloxanes as impurities and molecular chlorine were used as a defoamer and bleaching agent, respectively. In the producing processes of one papermaking factory, the mean total concentrations of monochlorinated D4, D5, and D6, i.e., D3D(CH₂Cl), D4D(CH₂Cl), and D5D(CH₂Cl), were 0.0430–287 μg/L in aqueous samples, while they were 0.0329–270 μg/g in solid samples. In the coupled papermaking-wastewater treatment processes, D3D(CH₂Cl), D4D(CH₂Cl), and D5D(CH₂Cl) were detected in all water (0.113–8.68 μg/L) and solid samples (0.888–26.2 μg/g), with solid–water partition values (468–3982 L/kg) 1.08–4.82 times higher than those of their corresponding nonchlorinated analogs. The removing efficiencies of D3D(CH₂Cl)–D5D(CH₂Cl) in the whole wastewater treatment processes were 77.1–81.6%, and sorption to sludge (35.7–74.1%) and removal in the primary clarifier (7.19–32.5%) had major contributions to their total removal. Elimination experiments showed that 1) hydrolysis half-lives of D3D(CH₂Cl)–D5D(CH₂Cl) (0.9–346 h) in the primary clarifier (pH = 7.8–9.2) were 2.16–3.60 times shorter than those of their nonchlorinated analogs; 2) D3D(CH₂Cl)–D5D(CH₂Cl) were hardly degraded in oxic sludge treatment process, and their volatilization half-lives (7.38–21.1 h) in oxic sludge were 1.21–1.50 times longer than those of their nonchlorinated analogs.