老司机直播

Solar-powered UV water treatment could improve health outcomes in rural Tanzania: 老司机直播 researcher

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With a water tank located out back and solar panel on the roof, the Kharumwa Health Centre in northern Tanzania is using a rainwater harvesting facility that is treated with UV light (photo by Karlye Wong)

Karlye Wong, a PhD candidate in the University of Toronto鈥檚 Faculty of Applied Science & Engineering, is working with the Geita and Nyang鈥檋wale District Councils in northern Tanzania to develop an affordable, low-maintenance, off-grid solution for delivering clean drinking water that has been treated with ultraviolet (UV) light.

In the areas where Wong is working, health-care facilities are not connected to electrical grids or municipal water systems, and groundwater sources are limited. Patients and hospital staff often have to collect water off-site, from sometimes unsafe water sources located miles away.

鈥淲hen you鈥檙e feeling sick, you seek out health care,鈥 says Wong, who is supervised by Ron Hofmann, a professor in the department of civil and mineral engineering. 鈥淏ut in many parts of the world, even the local health centre doesn鈥檛 have access to clean, safe water for drinking, handwashing and hygiene, sterilization of equipment, or intravenous and oral administration of medication.

鈥淟ack of access to safe water exacerbates risks of infection, water-borne diseases and diarrhea. In Tanzania, a study by the National Institute for Medical Research showed that 60 per cent of health-care facilities have high degrees of unsafe microbial contamination in sample water.鈥

In the past few years, rainwater harvesting has become a more prominent source of water for rural and off-grid contexts around the world. However, it is not normally treated due to a host of factors, including the high cost of sanitation equipment, as well as lack of access to the chemicals and expertise needed to maintain it.

Treating water with UV light is a potentially attractive solution since it鈥檚 known to destroy pathogens such as viruses and bacteria. Powered by low-cost solar panels, off-grid UV treatment systems are also simpler to deploy and require less maintenance than traditional chemical treatment.

As part of a pilot program, eight health-care facilities in the Geita and Nyang鈥檋wale District Councils have been outfitted with solar-powered UV systems for rainwater harvesting and disinfection. Wong and her collaborators are now leading a detailed assessment of the performance of these facilities, as well as the experiences of their operators.

Last August, Wong travelled to all eight of the rural sites to inspect the installations and replace malfunctioning equipment, and she aims to return for a second visit later this year.

Her goal is to further refine the design of these solar-powered UV disinfection systems so they can be more effective in addressing contamination, while also being adoptable and sustainable with respect to the context of the local community.

鈥淥ne change we鈥檙e looking at is replacing the current set of UV lamps with light emitting diodes, or LEDs,鈥 says Wong. 鈥淭hese bulbs are less costly 鈥 and require less energy and maintenance 鈥 than the existing fluorescent bulbs. They also contain no mercury, which is a health hazard.鈥

Wong hopes that the project will contribute to a better understanding of how off-grid communities and health services can sustain safe water quality in the face of challenges such as climate change and water insecurity.

鈥淲hile this work focuses on a pilot study in Tanzania, the lessons learned will be broadly applicable to rural or off-grid communities in developing countries around the world,鈥 says Wong.

鈥淲orking closely with local government and staff allows us to integrate community needs and long-term sustainability into this research. It鈥檚 really important that we get these details right, because there are so many places where this kind of approach could make a difference.鈥

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