Start-up of biofilter for nitrification and effect of filtration rate on the ammonium removal efficiency in drinking water treatment on pilot plant

Water Supply Pub Date : 2024-02-28 DOI:10.2166/ws.2024.038

Dajana Dragić, D. Drljaca, S. Zorić

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Abstract

Biological filtration is a process that can be used for ammonia removal from water. The removal of ammonia is based on the nitrification process. Nitrification depends on many factors, such as water quality and filtration process parameters. To investigate the influence of filtration rate on the nitrification efficiency, nitrifying biofilters were formed at the pilot plant in the industry for drinking water production from surface water. The new biological filters were started under optimal conditions for biofilm formation. After the biofilm formation, the influence of the filtration rate on nitrification was examined over 3 months (from November to January). The time required for the spontaneous growth of nitrifying bacteria on the new filters was around 70 days. The operating conditions at the start-up period were the continuous flow of water containing γ(NH4+) ≈ 1mg/L, dissolved oxygen in a concentration >9 mg/L, filtration rate <1 m/h, inlet water temperature >12 °C and pH from 7.8 to 8. After the complete formation of the nitrifying biofilm, the percentage of NH4+ removal was greater than 95% for all tested filtration rates, from 0.5 to 8.4 m/h, at γ(NH4+) from 1 to 2.5 mg/L and raw water temperature from 13 to 7°C.

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在试点工厂启动生物滤池进行硝化，以及过滤速率对饮用水处理中氨去除效率的影响

生物过滤是一种可用于去除水中氨的工艺。氨的去除基于硝化过程。硝化过程取决于许多因素，如水质和过滤工艺参数。为了研究过滤速率对硝化效率的影响，在地表水饮用水生产行业的试验工厂中建立了硝化生物过滤器。新型生物过滤器是在生物膜形成的最佳条件下启动的。生物膜形成后，在 3 个月内（从 11 月到次年 1 月）考察了过滤速率对硝化作用的影响。硝化细菌在新过滤器上自发生长所需的时间约为 70 天。启动期的运行条件是：水流持续含有γ(NH4+) ≈ 1 毫克/升，溶解氧浓度大于 9 毫克/升，过滤速率为 12 °C，pH 值为 7.8 至 8。硝化生物膜完全形成后，在γ(NH4+)为 1 至 2.5 毫克/升、原水温度为 13 至 7 摄氏度的条件下，所有测试的过滤速率（0.5 至 8.4 米/小时）对 NH4+ 的去除率均大于 95%。

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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Water Supply

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