在沉淀硬泡岩前使用天然沸石和富含 K 的沸石可提高消化液中 NH4+ 的回收率和试剂使用效率

IF 2.6 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Giulio Galamini, Giacomo Ferretti, Valeria Medoro, Negar Eftekhari, Marco Favero, Barbara Faccini, Massimo Coltorti
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引用次数: 0

摘要

在污水处理厂中实施养分回收对可持续农业至关重要。在本研究中,我们研究了厌氧液体沼渣的双相处理系统,其中包括天然沸石和富含 K 的沸石用于 NH4+ 回收(第 1 阶段),然后在两种条件下进行硬泡岩结晶:NH4+ 过量和 Mg2+ 过量(第 2 阶段)。天然沸石对 NH4+ 的吸附可以节省 Mg 和 P 试剂,从而达到 Mg:NH4:PO4 的目标比例。在 NH4+ 过量的条件下,天然沸石沉淀的试剂使用效率最高(96%),而其他处理方法的产量较低。在这种条件下,沸石释放的沼渣中富含 Ca2+,但没有出现 P 干扰(Ca2+/Mg2+ <0.5)。部分 Ca2+ 以 CaCO3 的形式沉淀。出现了同构的 NH4- 和 K- 铁矾土,通过校准 XRPD 数据(总铁矾土)和 N 含量(表明 NH4+-铁矾土)可将其区分开来。在使用天然沸石的处理过程中,沉淀物中的 NH4- 和 K- 硬石膏分别占 60% 和 30%(方解石占 9%),在使用 K- 置换沸石的处理过程中,沉淀物中的 NH4- 和 K- 硬石膏分别占 65% 和 35%,这是因为 K+ 的含量较高。关于处理后沼渣的化学变化,在天然沸石处理(第 1 阶段)和 NH4+ 过量条件下(第 2 阶段),除了来自镁试剂的未反应 SO42- 外,无机离子的变化较少。回收的沸石富含 0.5% 的 N。沸石沉淀物符合欧盟关于有机碳、磷含量和重金属杂质允许水平的规定,因此有可能用作肥料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Applying Natural and K-Enriched Zeolite Before Struvite Precipitation Improved the Recovery of NH4+ from Liquid Digestate and the Reagent Use Efficiency

Applying Natural and K-Enriched Zeolite Before Struvite Precipitation Improved the Recovery of NH4+ from Liquid Digestate and the Reagent Use Efficiency

Implementing nutrient recycling in wastewater treatment plants is essential for sustainable agriculture. In this study, we investigated a biphasic treatment system for anaerobic liquid digestate, which involved natural and K-enriched zeolite for NH4+ recovery (phase 1), followed by struvite crystallization under two conditions: NH4+ excess and Mg2+ excess (phase 2). The adsorption of NH4+ by natural zeolite enabled saving Mg and P reagents, used to achieve target Mg:NH4:PO4 ratios. The reagent use efficiency of struvite precipitation was highest with natural zeolite under NH4+ excess conditions (96%), whereas the other treatments exhibited lower yields. In this condition, the digestate enriched in Ca2+ released by zeolite; however, no P interferences occurred (Ca2+/Mg2+ < 0.5). Fractions of Ca2+ precipitated as CaCO3. Both the isomorphic NH4- and K-struvite occurred, distinguished by calibrating XRPD data (total struvite) with N contents (indicative of NH4+-struvite). The precipitates comprised NH4- and K-struvite at 60% and 30% (calcite at 9%) in the treatment that involved natural zeolite, 65% and 35% with the K-exchanged zeolite, due to higher presence of K+. Concerning the chemical evolution of the treated digestate, fewer alterations occurred for inorganic ions in the treatment that involved natural zeolite (phase 1) with NH4+ excess condition (phase 2), besides for unreacted SO42– derived from the Mg reagent. The recovered zeolite was enriched in N at 0.5%. Struvite precipitates met the EU regulations regarding permissible levels of organic C, P content, and heavy metal impurities, thereby potentially enabling its use as a fertilizer.

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来源期刊
CiteScore
5.40
自引率
0.00%
发文量
104
审稿时长
1.7 months
期刊介绍: International Journal of Environmental Research is a multidisciplinary journal concerned with all aspects of environment. In pursuit of these, environmentalist disciplines are invited to contribute their knowledge and experience. International Journal of Environmental Research publishes original research papers, research notes and reviews across the broad field of environment. These include but are not limited to environmental science, environmental engineering, environmental management and planning and environmental design, urban and regional landscape design and natural disaster management. Thus high quality research papers or reviews dealing with any aspect of environment are welcomed. Papers may be theoretical, interpretative or experimental.
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