Gan Siyu, Wang Zhenxing, Zheng Chunli, Lin Zishen, Zhu Ai-Bin, Lai Bo
Department of Environmental Science and Engineering, Xi'an Jiaotong University, Xi'an 710049, China.
South China Institute of Environmental Sciences, MEE, Guangzhou 510655, China.
Langmuir. 2024 Oct 15;40(41):21701-21710. doi: 10.1021/acs.langmuir.4c02741. Epub 2024 Oct 2.
Commercial micron zerovalent iron (mZVI) and sulfur were used to prepare sulfidated micro zerovalent iron (S-mZVI) through ball milling. The corrosion potentials of mZVI and S-mZVI were -0.01 and -0.37 V, respectively, indicating S-mZVI possessed a stronger electron-donating ability. The practical antimony mine wastewater ( = 3.8296 mg/L, pH = 8.29) was treated. If meeting the national discharge standard of 5 μg/L, 2.0 g/L mZVI and 1.6 g/L S-mZVI were required within 120 min. Passing N or reducing wastewater pH enhanced the treatment of Sb(V) by S-mZVI, in which the wastewater acidification was more effective. Once the wastewater pH was adjusted to 3.00, only 0.7 g/L S-mZVI and 40 min long time were needed to achieve the emission below 5 μg/L. Even S-mZVI underwent four cycles, and the final concentration of Sb(V) was as low as 4.67 μg/L. As the pH value was 4.09 and the corrosion potential was -0.56 V at pH 3.0, the electron-donating ability of S-mZVI as well as the electrostatic attraction between the surface of S-mZVI and Sb(V) increased. Sulfidation of mZVI and then application under the acid condition significantly improved the treatment efficiency of Sb(V).
采用商业微米级零价铁(mZVI)和硫通过球磨法制备了硫化微米级零价铁(S-mZVI)。mZVI和S-mZVI的腐蚀电位分别为-0.01 V和-0.37 V,表明S-mZVI具有更强的电子供体能力。对实际锑矿废水(锑含量为3.8296 mg/L,pH = 8.29)进行了处理。若要达到5 μg/L的国家排放标准,在120分钟内需要2.0 g/L的mZVI和1.6 g/L的S-mZVI。通入氮气或降低废水pH值可增强S-mZVI对Sb(V)的处理效果,其中废水酸化更为有效。一旦将废水pH值调至3.00,仅需0.7 g/L的S-mZVI和40分钟即可使排放浓度低于5 μg/L。即使S-mZVI经过四个循环,Sb(V)的最终浓度仍低至4.67 μg/L。由于在pH值为3.0时pH值为4.09且腐蚀电位为-0.56 V,S-mZVI的电子供体能力以及S-mZVI表面与Sb(V)之间的静电吸引力均增强。mZVI硫化后在酸性条件下应用显著提高了对Sb(V)的处理效率。
