利用啤酒废粮去除铁、锰、镉和镍离子

Karina Haro Carrasco, Egon Götz Höfgen, D. Brunner, Konstantin B. L. Borchert, Berthold Reis, Christine Steinbach, M. Mayer, S. Schwarz, K. Glas, Dana Schwarz
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引用次数: 5

摘要

人类对地表水和地下水的污染正成为人类和一般生命不可避免和持续紧迫的问题,因为这些污染物也是通过自然循环分布的。例如,来自采矿活动和冶金的有毒重金属污染环境,对人类健康和环境构成重大风险。生物吸附剂是一种有效捕获和消除这些危害的有趣方法,因为它们对环境友好,便宜,丰富且高效。在本研究中,我们介绍了啤酒废谷物(BSG)作为有毒重金属离子的有效吸附剂,以铁、锰、镉和镍离子为例。我们揭示了两种不同的BSGs的吸附特性,并深入研究了它们的化学和物理特性以及它们作为模拟和真实地表水的吸附剂的效率。结果,我们发现尽管化学性质几乎相同,但不同类型的BSG的吸附行为不同。元素图显示,BSG的所有组分都有助于吸附。此外,这两种类型不仅能够净净水达到可接受的清洁度水平,而且对0.2 mmol/g的铁离子和0.1 mmol/g的锰、镉和镍离子具有出色的吸附性能。
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Removal of Iron, Manganese, Cadmium, and Nickel Ions Using Brewers’ Spent Grain
The human-made pollution of surface and ground waters is becoming an inevitable and persistently urgent problem for humankind and life in general, as these pollutants are also distributed by their natural circulation. For example, from mining activities and metallurgy, toxic heavy metals pollute the environment and present material risk for human health and the environment. Bioadsorbers are an intriguing way to efficiently capture and eliminate these hazards, as they are environmentally friendly, cheap, abundant, and efficient. In this study, we present brewers’ spent grain (BSG) as an efficient adsorber for toxic heavy metal ions, based on the examples of iron, manganese, cadmium, and nickel ions. We uncover the adsorption properties of two different BSGs and investigate thoroughly their chemical and physical properties as well as their efficiency as adsorbers for simulated and real surface waters. As a result, we found that the adsorption behavior of BSG types differs despite almost identical chemistry. Elemental mapping reveals that all components of BSG contribute to the adsorption. Further, both types are not only able to purify water to reach acceptable levels of cleanness, but also yield outstanding adsorption performance for iron ions of 0.2 mmol/g and for manganese, cadmium, and nickel ions of 0.1 mmol/g.
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