Design of an Intermittent Biosand Filter Amended with Oyster Shell Powders for the Improvement of Household Water Quality in Sub-Saharan Africa and Madagascar

Cloreil Eboa, Hervé Ravelonandro, Suzanne Ngo, Rodrigue C. S. Ebonji, R. Andrianaivoravelona, François Tchoumbougnang
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Abstract

Access to safe drinking water and the wide spread of water-borne diseases are major challenges in Sub-Saharan Africa and Madagascar. Based on this, a water purification models has been developed which can use on a local scale. It consists of an intermittent biosand filter amended with oyster shell powders designed from local materials. The performance of the filter was evaluated through physicochemical and bacteriological analyses using standardized methods on raw polluted well water with previously determined initial D0 characteristics. The effectiveness of the designed filter was assessed and a filtration operation was carried out over a monitoring period of 13 days (D13) prior to 7 days of acclimatization of the system. With a filtration rate of 0.75l/h-1, there is a very strong reduction in turbidity from 35.59NTU to 0 NTU and in BOD5 from 125mg/l to 2mg/l. More so, bacteriological analyses reveal a progressive and complete decrease from D0 to D13 of fecal coliforms from 9000 CFU/100ml to 0 CFU/100ml; total coliforms from 6,000 CFU/100 ml to 0 CFU/100 ml and fecal streptococci from 10,800 CFU/100 ml to 0 CFU/100 ml. Compared to the classic ceramic filter, no significant difference in the Duncan test is reported for the highlighted parameters. This filter presents potential among other water treatment methods at the local scale for reducing the risks of water-borne diseases and achieving Sustainable Development Goal 6 in developing countries.
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为改善撒哈拉以南非洲和马达加斯加的家庭水质设计掺有牡蛎壳粉末的间歇式生物沙滤器
在撒哈拉以南非洲和马达加斯加,获取安全饮用水和水传播疾病的广泛传播是主要挑战。在此基础上,开发了一种可在当地使用的水净化模型。它由一个间歇式生物沙过滤器组成,过滤器中添加了由当地材料设计的牡蛎壳粉末。过滤器的性能是通过使用标准化方法对污染井水进行物理化学和细菌学分析来评估的。在系统适应 7 天之前,对所设计过滤器的有效性进行了评估,并在 13 天(D13)的监测期内进行了过滤操作。在 0.75 升/小时-1 的过滤速率下,浊度从 35.59NTU 降至 0NTU,生化需氧量从 125 毫克/升降至 2 毫克/升。此外,细菌学分析表明,从 D0 到 D13,粪大肠菌群从 9000 CFU/100 毫升逐渐完全减少到 0 CFU/100毫升;总大肠菌群从 6000 CFU/100 毫升减少到 0 CFU/100 毫升;粪链球菌从 10800 CFU/100 毫升减少到 0 CFU/100 毫升。与传统陶瓷过滤器相比,在邓肯试验中,突出参数没有明显差异。这种过滤器与其他水处理方法相比,具有在地方范围内降低水传播疾病风险和实现发展中国家可持续发展目标 6 的潜力。
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