Pd/Fe0双金属复合催化纤维降解水中痕量亚硝基二甲胺

存在于环境水体中的亚硝基二甲胺(NDMA)是一种强致癌性有机物,采用零价铁催化还原技术可以将其降解转化为低毒性物质,针对水中痕量NDMA的去除,需要深入开展基于高效零价铁材料、还原性能及还原机制方面的研究.以聚丙烯(PP)纤维为基材,采用紫外辐射接枝-金属离子配位-化学还原方法制备了含Pd/Fe~0双金属的复合催化纤维(Pd/Fe~0-PP-gAA),开展水中亚硝基二甲胺的去除研究.通过SEM、ICP-AES和XPS分析等对Pd/Fe~0/PP-g-AA进行表征.研究了不同制备条件和反应条件下,复合催化纤维对NDMA的降解性能.结果表明,丙烯酸单体质量分数为20%时,通过配位还原制备的复合催化纤维对NDMA的催化降解效果最佳,降解过程符合准一级反应动力学模型.在痕量浓度范围,NDMA初始浓度和溶液pH对复合纤维还原NDMA的性能影响不大.CO_3~(2-)和NO_3~-的存在显著抑制NDMA的降解,SO_4~(2-)、HCO_3~-和腐殖酸的存在对NDMA降解影响较小.

Degradation of N-nitrosodimethylamine by Palladium/ Iron Bimetallic Composite Catalytic Fiber

N-nitrosodimethylamine (NDMA) in the water environment is a carcinogenic organic contaminant, which can be converted to hypotoxic compounds by zero-valent iron degradation. For the removal of trace NDMA in water, the theory and efficiency of zero-valent iron degradation should be intensely researched. In this study, the polypropylene (PP) fibers were chosen as substrate materials and the composite catalyst fibers containing Pd/Fe⁰ bimetal were prepared by the UV irradiation-coordination method for the removal of trace NDMA. Pd/Fe⁰/PP-g-AA was characterized by scanning electron microscope, inductively coupled plasma atomic emission spectrometry, and X-ray photoelectron spectroscopy. The NDMA removal by Pd/Fe⁰/PP-g-AA under different conditions was investigated. The results indicated that when the acrylic acid monomer mass fraction was 20%, the composite catalytic fiber Pd/Fe⁰/PP-g-AA showed a better degradation effect on NDMA. The removal of NDMA followed the pseudo-first-order reaction kinetics model. The initial NDMA concentration and the pH of the solution could not greatly influence the catalytic degradation of trace amounts of NDMA. The presence of ₃CO^2- and NO₃^- significantly inhibited the degradation of NDMA. However, the NDMA degradation had been less affected by SO₄^2-, HCO₃^-, and nature organic matter (NOM) existing in the solution.