Assessment of low-cost, non-electrically powered chlorination devices for gravity-driven membrane water kiosks in eastern Uganda

Q4 Environmental Science

Waterlines Pub Date : 2021-04-01 DOI:10.3362/1756-3488.20-00014

Lukas Dössegger, Alan Tournefier, Laura Germann, Nicola Gärtner, Timon Huonder, C. Etenu, K. Wanyama, H. Ouma, R. Meierhofer

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引用次数: 5

Abstract

Recontamination during transport and storage is a common challenge of water supply in low-income settings, especially if water is collected manually. Chlorination is a strategy to reduce recontamination. We assessed seven low-cost, non-electrically powered chlorination devices in gravity-driven membrane filtration (GDM) kiosks in eastern Uganda: one floater, two in-line dosers, three end-line dosers (tap-attached), and one manual dispenser. The evaluation criteria were dosing consistency, user-friendliness, ease of maintenance, local supply chain, and cost. Achieving an adequate chlorine dosage (∼2 mg/L at the tap and ≥ 0.2 mg/L after 24 h of storage in a container) was challenging. The T-chlorinator was the most promising option for GDM kiosks: it achieved correct dosage (CD, 1.5–2.5 mg/L) with a probability of 90 per cent, was easy to use and maintain, economical, and can be made from locally available materials. The other in-line option, the chlorine-dosing bucket (40 per cent CD) still needs design improvements. The end-line options AkvoTur (67 per cent CD) and AquatabsFlo® (57 per cent CD) are easy to install and operate at the tap, but can be easily damaged in the GDM set-up. The Venturi doser (52 per cent CD) did not perform satisfactorily with flow rates > 6 L/min. The chlorine dispenser (52 per cent CD) was robust and user-friendly, but can only be recommended if users comply with chlorinating the water themselves. Establishing a sustainable supply chain for chlorine products was challenging. Where solid chlorine tablets were locally rarely available, the costs of liquid chlorine options were high (27–162 per cent of the water price).

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乌干达东部用于重力驱动膜式水亭的低成本、非电力氯化装置的评估

在低收入环境中，运输和储存过程中的净化是供水的一个常见挑战，尤其是在手动收集水的情况下。氯化是减少再污染的一种策略。我们评估了乌干达东部重力驱动膜过滤（GDM）亭中的七个低成本、非电动氯化设备：一个浮子、两个在线加药器、三个末端加药器（连接水龙头）和一个手动加药器。评估标准为给药一致性、用户友好性、易于维护、本地供应链和成本。实现足够的氯剂量（水龙头处为～2 mg/L，在容器中储存24小时后≥0.2 mg/L）是一项挑战。T-氯化器是GDM信息亭最有前途的选择：它达到了90%的正确剂量（CD，1.5–2.5 mg/L），易于使用和维护，经济实惠，并且可以由当地可用的材料制成。另一种直列式选择，氯加药桶（40%CD）仍需要改进设计。终端线选项AkvoTur（67%CD）和AquatabsFlo®（57%CD）易于在水龙头处安装和操作，但在GDM设置中很容易损坏。文丘里定量器（52%的CD）在流量>6 L/min时表现不佳。氯分配器（52%的CD）坚固耐用，用户友好，但只有在用户自己遵守水的氯化规定的情况下才能推荐使用。建立可持续的氯产品供应链具有挑战性。在当地很少能买到固体氯片的地方，液氯选择的成本很高（占水价的27-162%）。

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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来源期刊

Waterlines Environmental Science-Water Science and Technology

CiteScore

1.20

自引率

0.00%

发文量

期刊介绍： Published since 1982 Waterlines is a refereed journal providing a forum for those involved in extending water supply, sanitation, hygiene and waste management to all in developing countries. Waterlines aims to bridge the gap between research and practice: it encourages papers written by researchers for the benefit of practice and those written by practitioners to inform research and policy. It highlights information sources and promotes debate between different perspectives. Waterlines considers the key challenges facing those in the water and sanitation sector–engineers, health professionals.