International Water Management Institute, Hyderabad, India.
Water Res. 2011 May;45(10):3153-63. doi: 10.1016/j.watres.2011.03.027. Epub 2011 Apr 12.
In this study the effect of soil type, level of pre-treatment, ponding depth, temperature and sunlight on clogging of soil aquifer treatment (SAT) systems was evaluated over an eight week duration in constant temperature and glasshouse environments. Of the two soil types tested, the more permeable sand media clogged more than the loam, but still retained an order of magnitude higher absolute permeability. A 6- to 8-fold difference in hydraulic loading rates was observed between the four source water types tested (one potable water and three recycled waters), with improved water quality resulting in significantly higher infiltration. Infiltration rates for ponding depths of 30 cm and 50 cm were higher than 10 cm, although for 50 cm clogging rates were higher due to greater compaction of the clogging layer. Overall, physical clogging was more significant than other forms of clogging. Microbial clogging becomes increasingly important when the particulate concentrations in the source waters are reduced through pre-treatment and for finer textured soils due to the higher specific surface area of the media. Clogging by gas binding took place in the glasshouse but not in the lab, and mechanical clogging associated with particle rearrangement was evident in the sand media but not in the loam. These results offer insight into the soil, water quality and operating conditions needed to achieve viable SAT systems.
本研究在恒温及温室环境中持续八周,评估了土壤类型、预处理程度、蓄水深度、温度和阳光对土壤含水层处理(SAT)系统堵塞的影响。在所测试的两种土壤类型中,渗透性更高的砂质介质堵塞程度高于壤土,但仍保持着数量级更高的绝对渗透率。在所测试的四种原水类型(一种饮用水和三种再生水)中,水力负荷率相差 6 至 8 倍,水质改善导致渗透度显著提高。蓄水深度为 30 厘米和 50 厘米时的渗透速率高于 10 厘米,但由于堵塞层的压实程度更高,50 厘米时的堵塞速率更高。总体而言,物理堵塞比其他形式的堵塞更为显著。当原水中的颗粒物浓度通过预处理降低,并且由于介质的比表面积更高,对于质地更细的土壤,微生物堵塞变得越来越重要。温室中的气体结合堵塞,但在实验室中没有发生,而与颗粒重排相关的机械堵塞在砂质介质中明显,但在壤土中没有发生。这些结果为实现可行的 SAT 系统所需的土壤、水质和操作条件提供了深入了解。
