Bio-production of selenium nanoparticles with diverse physical properties for recovery from water

Q1 Earth and Planetary Sciences International Journal of Mineral Processing Pub Date : 2017-12-10 DOI:10.1016/j.minpro.2017.09.018
Simon P.W. Hageman , Renata D. van der Weijden , Alfons J.M. Stams , Cees J.N. Buisman
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引用次数: 21

Abstract

Biological reduction of soluble selenate to insoluble elemental selenium enables the removal and recovery of selenium from aqueous streams. Economic, efficient biological selenium recovery depends on properties of selenium particles such as size, density, stability, hydrophilic character and attachment to the biomass. In batch and fed-batch reactors using anaerobic sludge, the influence of pH (6-9) and temperature (20–50 °C) on the morphology, structure and stability of the biologically produced selenium particles were studied using SEM, XRD, and light microscopy. At a high pH or a high temperature these experiments resulted in grey crystalline hexagonal acicular selenium particles, while at a low pH combined with a low temperature red amorphous nanospheres were dominant. Particle stability tests were carried out by changing the temperature or pH after the particles had formed. Red amorphous selenium spheres (produced at pH = 7 and 30 °C) transformed gradually towards the grey hexagonal structure at 50 °C over a period of three weeks, whereas the transformation was less or not detected under other process conditions (according XRD). We show here that biological selenium particle crystallinity, shape and color can be controlled by temperature and pH. However, the choice for the temperature and pH in the bioreactor should not limit the biomass' reduction capacity of selenate. The production of crystalline particles is an important first step to grow larger selenium particles in the future in order to reduce costs for selenium recovery in bioreactors.

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生物生产具有不同物理性质的纳米硒从水中回收
将可溶性硒酸盐生物还原为不溶性硒元素,使水中硒的去除和恢复成为可能。经济、高效的生物硒回收取决于硒颗粒的大小、密度、稳定性、亲水性和对生物量的附着性等特性。在厌氧污泥间歇式和进料间歇式反应器中,采用SEM、XRD和光学显微镜研究了pH(6-9)和温度(20-50℃)对生物产硒颗粒形貌、结构和稳定性的影响。在高pH和高温下,这些实验得到灰色的六方针状硒颗粒,而在低pH和低温结合的红色无定形纳米球中占主导地位。在颗粒形成后,通过改变温度或pH值来进行颗粒稳定性测试。在pH = 7和30℃下生成的红色无定形硒球在50℃下经过3周的时间逐渐向灰色六边形结构转变,而在其他工艺条件下则很少或没有检测到这种转变(根据XRD)。我们在这里表明,生物硒颗粒的结晶度、形状和颜色可以通过温度和pH来控制。但是,生物反应器中温度和pH的选择不应该限制生物质对硒酸盐的还原能力。晶体颗粒的生产是未来生产更大硒颗粒的重要的第一步,以降低生物反应器中硒的回收成本。
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来源期刊
International Journal of Mineral Processing
International Journal of Mineral Processing 工程技术-工程:化工
CiteScore
3.02
自引率
0.00%
发文量
0
审稿时长
11.1 months
期刊介绍: International Journal of Mineral Processing has been discontinued as of the end of 2017, due to the merger with Minerals Engineering. The International Journal of Mineral Processing covers aspects of the processing of mineral resources such as: Metallic and non-metallic ores, coals, and secondary resources. Topics dealt with include: Geometallurgy, comminution, sizing, classification (in air and water), gravity concentration, flotation, electric and magnetic separation, thickening, filtering, drying, and (bio)hydrometallurgy (when applied to low-grade raw materials), control and automation, waste treatment and disposal. In addition to research papers, the journal publishes review articles, technical notes, and letters to the editor..
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