A laboratory study using maple leaves as a biosorbent for lead removal from aqueous solutions

IF 2 Q3 Environmental Science
A. Hossain, H. Ngo, Wenshan Guo, Jian Zhang, S. Liang
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引用次数: 11

Abstract

This study tested the ability of maple leaf powder (MLP) to reduce the level of Pb(II) ions in aqueous solutions. As a biosorbent, MLP has a larger specific surface area (10.94 m 2 /g) and contains Pb(II) binding functional groups. The highest Pb(II) removals were achieved at pH of 6.2, particle size of less than 75 μm, dose of 0.5 g, initial concentration of 10 mg/l and equilibrium time of >15 minutes. Thermodynamic results indicated that the Pb(II) adsorption process was spontaneous and exothermic. MLP biosorbent could be reused for five cycles after successfully recovery by 0.1N H 2 SO 4 . Both adsorption and desorption data fit well with Langmuir and Sips isotherm models ( R 2 ≈ 0.961–1.00). The Pb(II) adsorption and desorption capacities ( q m ) of MLP were up to 50.27 mg/g and 40.06 mg/g, respectively, for a 1 g dose at room temperature. Kinetics processes were rate controlling step and showed good fitness with the pseudo-second order and intraparticle diffusion models. Results suggest that multiple mechanisms (chelating bond, physisorption and chemisorption) are involved to adsorb the Pb(II) ions on to MLP. Higher Pb(II) removal revealed the practical applicability of MLP in water and wastewater treatment systems.
用枫叶作为生物吸附剂去除水溶液中的铅的实验室研究
本研究考察了枫叶粉(MLP)对水溶液中铅(II)离子的降低能力。作为生物吸附剂,MLP具有较大的比表面积(10.94 m2 /g),并含有Pb(II)结合官能团。当pH = 6.2、粒径< 75 μm、投加量为0.5 g、初始浓度为10 mg/l、平衡时间为> ~ 15 min时,对Pb(II)的去除率最高。热力学结果表明,Pb(II)的吸附过程是自发的、放热的。MLP生物吸附剂经0.1N H 2 SO 4回收成功后,可重复使用5次。吸附和解吸数据均符合Langmuir和Sips等温模型(r2≈0.961-1.00)。在室温条件下,当用量为1 g时,MLP对Pb(II)的吸附量和解吸量(q m)分别达到50.27 mg/g和40.06 mg/g。动力学过程为速率控制步骤,与拟二级扩散模型和颗粒内扩散模型具有良好的拟合性。结果表明,铅离子在MLP上的吸附涉及多种机制(螯合键、物理吸附和化学吸附)。较高的Pb(II)去除率揭示了MLP在水和废水处理系统中的实际适用性。
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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
18
审稿时长
>12 weeks
期刊介绍: The Water Quality Research Journal publishes peer-reviewed, scholarly articles on the following general subject areas: Impact of current and emerging contaminants on aquatic ecosystems Aquatic ecology (ecohydrology and ecohydraulics, invasive species, biodiversity, and aquatic species at risk) Conservation and protection of aquatic environments Responsible resource development and water quality (mining, forestry, hydropower, oil and gas) Drinking water, wastewater and stormwater treatment technologies and strategies Impacts and solutions of diffuse pollution (urban and agricultural run-off) on water quality Industrial water quality Used water: Reuse and resource recovery Groundwater quality (management, remediation, fracking, legacy contaminants) Assessment of surface and subsurface water quality Regulations, economics, strategies and policies related to water quality Social science issues in relation to water quality Water quality in remote areas Water quality in cold climates The Water Quality Research Journal is a quarterly publication. It is a forum for original research dealing with the aquatic environment, and should report new and significant findings that advance the understanding of the field. Critical review articles are especially encouraged.
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