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粉煤灰基多孔材料负载纳米铁的制备及其对龙胆紫的去除效果 被引量:5
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作者 张晓琳 teza mwamulima +3 位作者 王勇梅 宋少先 谷庆宝 彭昌盛 《环境科学研究》 EI CAS CSCD 北大核心 2017年第8期1295-1302,共8页
为制备新型可再生吸附反应材料,以工业废弃物粉煤灰、棕榈壳等为主要原料,烧结制备FAP(粉煤灰基多孔材料),并以FAP为载体负载纳米零价铁,制备FAP/n ZVI(粉煤灰基纳米零价铁多孔材料),以散失率、龙胆紫去除率、纳米零价铁负载量等为指标... 为制备新型可再生吸附反应材料,以工业废弃物粉煤灰、棕榈壳等为主要原料,烧结制备FAP(粉煤灰基多孔材料),并以FAP为载体负载纳米零价铁,制备FAP/n ZVI(粉煤灰基纳米零价铁多孔材料),以散失率、龙胆紫去除率、纳米零价铁负载量等为指标,确定FAP及FAP/n ZVI的最佳制备条件,并考察二者对染料龙胆紫的去除特性.结果表明:(1)FAP的最佳制备条件为m(粉煤灰)∶m(膨润土)∶m(棕榈壳)=190∶95∶15,升温速率10℃/min,烧结温度800℃,保温时间30 min.(2)FAP/n ZVI最佳制备条件为m(Fe)/m(FAP)1∶3,振荡时间1 h,选用抗坏血酸为稳定剂,过程中无需使用惰性气体;SEM结果表明纳米零价铁被成功负载于FAP上.(3)FAP/n ZVI对200 mg/L龙胆紫的去除率为94.8%,FAP同条件下的去除率仅为26.2%,FAP/n ZVI对龙胆紫的去除同时存在物理吸附和化学还原作用,并且纳米零价铁的还原占主导作用.(4)FAP/n ZVI再生10次后30 min内对100 mg/L龙胆紫去除率高达97.6%.研究显示,FAP可将纳米零价铁氧化产物Fe^(^(2+))固定在表面,经还原后可再生为纳米零价铁,具有良好的再生性能. 展开更多
关键词 粉煤灰 纳米零价铁 多孔材料 龙胆紫
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Novel approach to control adsorbent aggregation: iron fixed bentonite-fly ash for Lead (Pb) and Cadmium (Cd) removal from aqueous media 被引量:5
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作者 teza mwamulima Xiaolin Zhang +2 位作者 Yongmei Wang Shaoxian Song Changsheng Peng 《Frontiers of Environmental Science & Engineering》 SCIE EI CAS CSCD 2018年第2期17-28,共12页
In the present study, a novel approach was used to control zero valent iron aggregation and separation problems by fixing zero valent iron (ZVI) on bentonite-fly ash pellets. For this purpose, porous low cost benton... In the present study, a novel approach was used to control zero valent iron aggregation and separation problems by fixing zero valent iron (ZVI) on bentonite-fly ash pellets. For this purpose, porous low cost bentonite-fly ash (BFA) pellets with size of 2.00 cm in length and 0.35 cm in diameter were prepared and fixed with ZV1 to manufacture zero valent iron bentonite-fly ash (ZVI-BFA) pellets. Importantly, unlike powdered adsorbents, ZVI-BFA can easily be separated from final effluents when exhausted without any disintegration. The performance of the developed novel adsorbent was investigated for the removal of Pb2+ and Cd2+ from aqueous media. At 100 mg.L I and 1 g adsorbent, a maximum of 89.5% ofCd2+ and 95.6% ofPb2+ was removed by ZVI-BFA as compared to 56% and 95% removal by BFA. At 200 mg.L 10 Cd2+ and Pb2+ removal by ZVI-BFA was 56% and 99.8% respectively as compared to only 28% and 96% by BFA. Further, the removal kinetics was best fitted for pseudo-second order model. The study provides the basis for improving the removal capacity of porous materials by iron fixation while taking separation ability into consideration. 展开更多
关键词 Zero valent ironBentoniteFly ashHeavy metals removalSynthesis
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