Journal of Jilin University(Earth Science Edition) ›› 2026, Vol. 56 ›› Issue (1): 342-351.doi: 10.13278/j.cnki.jjuese.20250174

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Effects of Common Groundwater Anions on Nitrobenzene Degradation by Dual-Modified Nano Zero-Valent Iron and Underlying Mechanisms

Qin Chuanyu1,2, You Kaihong1,2, Li Xiaoqi1,2, Zhang Chengwu1,2, Yu Lijuan1,2   

  1. 1. College of New Energy and Environment, Jilin University, Changchun 130021, China
    2. National and Local Joint Engineering Laboratory for Petrochemical Contaminated Site Control and Remediation Technology
    (Jilin University), Changchun 130021, China
  • Received:2025-07-18 Online:2026-01-26 Published:2026-02-09
  • Supported by:
    the Natural Science Foundation of Jilin Province (20230101132JC)

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Abstract: Sulfide and carboxymethyl cellulose (CMC) stabilization dual-modified nano zero-valent iron (S-CMC-nZVI) exhibits high reactivity and strong mobility, demonstrating significant potential for remediating organically contaminated groundwater. However, the effects of common groundwater anions on its surface-modified layer and contaminant degradation performance remains unclear. This study investigated the mechanisms and effects of common groundwater anions (SO2-4, HCO-3, NO-3, Cl-) on the degradation of nitrobenzene by S-CMC-nZVI, using nitrobenzene as the target pollutant. The results showed that the presence of NO-3 and Cl- did not affect the sulfidation degree of the S-CMC-nZVI surface modified layer or the degradation efficiency of nitrobenzene. The addition of SO2-4 or HCO-3 led to a reduction in the sulfidation degree of the surface modification layer, causing peeling and increase in the content of Fe2+ and S2- in the solution. Consequently, the actual n(S)/n(Fe) molar ratios of the material decreased to 0.013 2 and 0.019 1, respectively. The FeS and Fe2+ produced by the peeling of the sulfide layer can promote the degradation of nitrobenzene. However, SO2-4 will cause the formation of iron oxides on the surface of S-CMC-nZVI, thereby inhibiting the sustained degradation of nitrobenzene. In contrast, HCO-3 accelerated the decomposition of the oxide layer, facilitating the sustained degradation of nitrobenzene, with a maximum efficiency of 99.6%. This study provides a theoretical reference for the efficient application of S-CMC-nZVI in groundwater remediation.

Key words: groundwater, anion, S-CMC-nZVI, nitrobenzene

CLC Number: 

  • X523
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