期刊论文详细信息
International Journal of Environmental Research and Public Health
Evaluation of Membrane Ultrafiltration and Residual Chlorination as a Decentralized Water Treatment Strategy for Ten Rural Healthcare Facilities in Rwanda
Alexandra Huttinger2  Robert Dreibelbis5  Kristin Roha2  Fidel Ngabo1  Felix Kayigamba4  Leodomir Mfura4  Christine Moe2  Nicholas Frederick Gray3 
[1] The Republic of Rwanda Ministry of Health Maternal and Child Health Unit; P.O. Box 84, Kigali, Rwanda; E-Mail:;The Center for Global Safe Water, Sanitation and Hygiene at Emory University, 1518 Clifton Rd. NE, Atlanta, GA 30324, USA; E-Mails:The Center for Global Safe Water, Sanitation and Hygiene at Emory University, 1518 Clifton Rd. NE, Atlanta, GA 30324, USA;;The Access Project Rwanda, P.O. Box 7393, Kigali, Rwanda; E-Mails:;School of Civil Engineering and Environmental Science, The University of Oklahoma, 455 West Lindsey, Dale Hall Tower 521, Norman, OK 73019, USA; E-Mail:
关键词: low-income countries;    chlorination;    implementation;    maintenance;    membrane water treatment;    operation;    quality;    sustainability;    ultrafiltration;   
DOI  :  10.3390/ijerph121013602
来源: mdpi
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【 摘 要 】

There is a critical need for safe water in healthcare facilities (HCF) in low-income countries. HCF rely on water supplies that may require additional on-site treatment, and need sustainable technologies that can deliver sufficient quantities of water. Water treatment systems (WTS) that utilize ultrafiltration membranes for water treatment can be a useful technology in low-income countries, but studies have not systematically examined the feasibility of this technology in low-income settings. We monitored 22 months of operation of 10 WTS, including pre-filtration, membrane ultrafiltration, and chlorine residual disinfection that were donated to and operated by rural HCF in Rwanda. The systems were fully operational for 74% of the observation period. The most frequent reasons for interruption were water shortage (8%) and failure of the chlorination mechanism (7%). When systems were operational, 98% of water samples collected from the HCF taps met World Health Organization (WHO) guidelines for microbiological water quality. Water quality deteriorated during treatment interruptions and when water was stored in containers. Sustained performance of the systems depended primarily on organizational factors: the ability of the HCF technician to perform routine servicing and repairs, and environmental factors: water and power availability and procurement of materials, including chlorine and replacement parts in Rwanda.

【 授权许可】

CC BY   
© 2015 by the authors; licensee MDPI, Basel, Switzerland.

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