金属螯合物包埋聚合物对海水淡化废水中重金属的吸附动力学研究

International Journal of Nuclear Desalination Pub Date : 2011-05-19 DOI:10.1504/IJND.2011.040127

T. Prasad, P. K. Tewari, D. Sathiyamoorthy

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引用次数: 2

摘要

重金属，如铀和钒，是海水淡化废水中的一些有价金属。采用辐照诱导接枝聚合技术，以不同的无纺布热粘合纤维为基体材料，制备了小叶状金属螯合物嵌入聚合物(MCEP)。利用1.25 MeV和2 MeV的加速器能量束合成的新型吸附剂，对其辐射、化学和机械特性进行了表征。在不同的参数条件下，研究了接枝水平、初始浓度、溶解固形物和接触时间对新型吸附剂性能的影响。对实验吸附数据拟合了标准等温线和扩散模型，并对模型参数进行了评价。研究了MCEP对海水淡化废水中重金属铀、钒的吸附特性。

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Sorption kinetic studies using metal chelate embedded polymers for recovery of heavy metals from desalination effluents

The heavy metals, such as uranium and vanadium, are some of the valuable metals in desalination effluents. Metal Chelate Embedded Polymers (MCEP) in leaflet form were prepared using the post-irradiation induced graft polymerisation technique, with different non-woven thermally bonded fibrous substrate materials. The novel sorbents, synthesised by using accelerator energy beams of 1.25 MeV and 2 MeV, were characterised for their radiation, chemical and mechanical characteristics. The novel sorbent was evaluated under different parametric conditions, in order to study the influence of grafting levels, initial concentration, dissolved solids and contact time. The standard isotherm and diffusion models were fitted to the experimental sorption data and model parameters were evaluated. The sorption characteristics of MCEP for recovery of heavy metals such as uranium and vanadium from desalination effluents were investigated.

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International Journal of Nuclear Desalination

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