花生壳和堆肥有效地从水系统中螯合铅:来自固定床柱和批量研究的证据

G. Mustafa Shah, M. Imran, U. Aiman, M. Mohsin Iqbal, M. Akram, H. Javeed, Atika Waqar, F. Rabbani
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引用次数: 7

摘要

铅是一种普遍存在的污染物,对生物构成严重威胁。本研究旨在研究商业堆肥(CCB)和花生壳生物吸附剂(PSB)对污染水体中铅的间歇和固定床柱规模潜力。利用红外光谱(FTIR)、扫描电镜(SEM)和BET (bruauer emmet - teller)对两种材料的吸附行为进行了表征。固定床柱尺度实验分别在稳态流量(2.5和5.0 mL/min)、初始Pb浓度(25和50 mg/L)和吸附剂用量(3.0和6.0 g/柱)下进行。用PSB和CCB填充的柱(15.9 cm2)与CCB相比,PSB对Pb的吸附效果更好。以2.5 mL/min和5.0 mL/min注入污染水的总体积分别为1500 mL和3000 mL,总床容积数为157个。在吸附剂用量(1.25 ~ 5.0 g/L)、初始Pb浓度(25 ~ 100 mg/L)、作用时间(0 ~ 180 min)和溶液pH(4 ~ 10)的条件下,对CCB和PSB进行了一系列的批量实验。批量试验结果显示,在25 mg Pb/L浓度下,PSB对水中铅的去除率为92%,而CCB的去除率为79%。与合成水相比,地下水中竞争离子的存在对铅的去除效果较差。实验数据用平衡等温模型Langmuir, Freundlich和动力学模型伪一阶,伪二阶和粒子内扩散进行了模拟。Freundlich和伪二阶模型分别较好地描述了平衡和动力学实验数据,PSB的最大吸附量为42.5 mg/g,从FTIR官能团和SEM结果也可以看出这一点。而Pb在CCB上的平衡吸附同样可以用Freundlich和Langmuir模型来解释。这些发现表明,PSB可能是一种活性的、生态友好的生物吸附剂,用于从污染的水系统中隔离金属。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient sequestration of lead from aqueous systems by peanut shells and compost: evidence from fixed bed column and batch scale studies
Lead (Pb) is a pervasive contaminant and poses a serious threat to living beings. The present study aims at batch and fixed bed column scale potential of commercial compost (CCB) and peanut shells biosorbents (PSB) for the sequestration of Pb from contaminated aqueous systems. The PSB and CCB were characterized with FTIR, SEM and Brunauer Emmett-Teller (BET) to get insight of the adsorption behavior of both materials. Fixed bed column scale experiments were performed at steady state flow (2.5 and 5.0 mL/min), initial Pb concentrations (25 and 50 mg/L) and dosage of each adsorbent (3.0 and 6.0 g/column). Columns packed (15.9 cm2) with PSB and CCB have revealed excellent adsorption of Pb with PSB as compared with CCB. The total volume of injected contaminated water was 1,500 mL and 3,000 mL at 2.5 and 5.0 mL/min, respectively while total bed volume number was 157. A series of batch experiments with CCB and PSB was conducted at adsorbent dosage (1.25–5.0 g/L), initial Pb level (25–100 mg/L), interaction time (0–180 min) and solution pH (4–10) at room temperature. Batch scale results revealed that PSB removed 92% Pb from water at 25 mg Pb/L concentration as compared with CCB (79%). The presence of competing ions in groundwater showed less Pb removal as compared with synthetic water. The experimental data were simulated with equilibrium isothermal models: Langmuir, Freundlich, and kinetic models: pseudo first order, pseudo second order and intra-particle diffusion. The Freundlich and pseudo second order models better described the equilibrium and kinetic experimental data, respectively with maximum sorption of 42.5 mg/g by PSB which is also evident from FTIR functional groups and SEM results. While equilibrium sorption of Pb onto CCB was equally explained by Freundlich and Langmuir models. These findings indicate that PSB could be an active and ecofriendly biosorbent for the sequestration of metals from contaminated aqueous systems.
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