Comprehensive analysis of the start-up period of a full-scale drinking water biofilter provides guidance for optimization

Q2 Engineering

Drinking Water Engineering and Science Pub Date : 2018-07-30 DOI:10.5194/DWES-11-87-2018

L. Ramsay, I. L. Breda, D. A. Søborg

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引用次数: 8

Abstract

Abstract. The use of biofilters to produce drinking water from anaerobic groundwater is widespread in some European countries. A major disadvantage of biofilters is the long start-up period required for virgin filter medium to become fully functional. Although individual aspects of biofilter start-up have previously been investigated, no comprehensive study in full scale using inherent inoculation has previously been documented. A thorough investigation of a full-scale drinking water biofilter was carried out over 10 weeks of start-up. The many spatial and temporal changes taking place during start-up were documented using a holistic approach. In addition to collection of many samples over time (frequency) and space (filter depth), this study entailed the use of multiple sample media (water, backwash water and filter media) and multiple types of analyses (physical, chemical and microbiological). The decrease in filter effluent concentrations of individual substances to compliance levels followed a specific order that was shown to coincide with the spatiotemporal development of bacteria on the filter media. Due to the abiotic nature of the iron removal process, iron disappears at the earliest in the start-up period followed by substances that require growth of microorganisms. Ammonium disappears next, with nitrite appearing briefly near the end of ammonium removal, followed by manganese. The thorough overall picture obtained by these efforts provides guidance for optimization and monitoring of the start-up. Guidance for optimization includes shortening the start-up by focusing on kick-starting the ammonium removal; limiting the monitoring burden (at-line measurements of ammonium in finished water supplemented with manual manganese measurements when ammonium removal is complete); and improving filter design by isolating the removal processes in separate, smaller filters.

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对全尺寸饮用水生物滤池的启动周期进行综合分析，为优化提供指导

摘要在一些欧洲国家，使用生物过滤器从厌氧地下水中生产饮用水的做法很普遍。生物过滤器的一个主要缺点是原始过滤介质需要很长的启动时间才能完全发挥作用。尽管之前已经对生物过滤器启动的各个方面进行了研究，但之前没有使用固有接种进行全面研究的记录。在启动的10周内，对全尺寸饮用水生物过滤器进行了彻底的研究。使用整体方法记录了启动上升过程中发生的许多空间和时间变化。除了收集随时间（频率）和空间（过滤器深度）变化的许多样本外，本研究还需要使用多种样本介质（水、反冲洗水和过滤器介质）和多种类型的分析（物理、化学和微生物）。单个物质的过滤出水浓度降低到符合水平遵循特定的顺序，这与过滤介质上细菌的时空发展相一致。由于除铁过程的生物性质，铁在启动初期就消失了，随后是需要微生物生长的物质。铵随后消失，亚硝酸盐在铵去除结束时短暂出现，其次是锰。通过这些努力获得的全面情况为启动的优化和监控提供了指导。优化指导包括通过集中精力启动脱铵来缩短启动时间；限制监测负荷（当铵去除完成时，用手动锰测量补充成品水中铵的在线测量）；以及通过将去除过程隔离开来改进过滤器设计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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