使用还原GO-Fe0填充PANI复合材料从水中去除As(III)和As(V)

Shreemoyee Bordoloi, R. Chetia, Geetika Borah, S. Konwer
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引用次数: 4

摘要

通过苯胺原位聚合,在还原的氧化石墨烯上还原沉积零价铁,制备了一种新型的三元吸附剂。SEM/EDS研究显示出不规则、多孔和不均匀的表面形态,铁可用于As结合。通过分批吸附实验确定了As吸附的最佳条件,包括最佳吸附剂剂量、As的初始浓度、pH等。在优化的条件下,As(III)和As(V)的最大去除率分别为99.6%和89%。砷在复合材料上的吸附符合拟二阶动力学模型,符合Langmuir[R2 = As(III)为0.955,As(V)为0.992]和Freundlich[R2 = As(III)模型为0.975,As(V)模型为0.993。在水溶液中,常见的共离子磷酸盐比任何其他离子都更阻碍As的去除。将吸附剂的吸附能力与不同吸附剂的吸收能力进行了比较,发现吸附剂的效率相当高。
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Removal of As(III) and As(V) from water using reduced GO-Fe0 filled PANI composite
A novel ternary adsorbent was prepared by reductive deposition of zerovalent iron on reduced graphene oxide through in-situ polymerization of aniline. SEM/EDS study showed an irregular, porous, and heterogeneous surface morphology with iron available for As binding. Batch adsorption experiments were conducted to determine the optimum conditions for As adsorption with optimum adsorbent dose, initial concentration of As, pH etc. Under optimized conditions, the maximum removal percentage of As was 99.6% for As(III) and 89% for As(V). The adsorption of arsenic on the composite was fitted well to the pseudo-second-order kinetic model and obeyed both Langmuir [R 2 = 0.955 for As(III) and 0.992 for As(V)] and Freundlich [R 2 = 0.975 for As(III) and 0.993 for As(V)] models. In aqueous solutions, the common co-ions phosphate hindered As removal more than the any other ions. The absorptive ability of adsorbent was compared with those of different adsorbents and found to be considerably efficient.
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来源期刊
CiteScore
2.90
自引率
16.70%
发文量
31
期刊介绍: JAWER’s paradigm-changing (online only) articles provide directly applicable solutions to water engineering problems within the whole hydrosphere (rivers, lakes groundwater, estuaries, coastal and marine waters) covering areas such as: integrated water resources management and catchment hydraulics hydraulic machinery and structures hydraulics applied to water supply, treatment and drainage systems (including outfalls) water quality, security and governance in an engineering context environmental monitoring maritime hydraulics ecohydraulics flood risk modelling and management water related hazards desalination and re-use.
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