$500k Technology Against Poverty prize for water system
A low-cost, easy to operate project to remove arsenic and deliver safe and clean drinking water has won a Technology Against Poverty $500,000 prize.
This prize is made to the team led by Distinguished Professor Vigneswaran and Dr Tien Vinh Nguyen of the School of Environmental and Environmental Engineering, Faculty of Engineering and IT, for their project to remove pollutants from groundwater in the Red River Delta of Vietnam. This area is densely populated with high levels of arsenic in groundwater leading to serious public health issues.
Arsenic poisoning is a slow process, with people often unaware they are being poisoned as they suffer major health problems including cancers, gastrointestinal disorders, muscular weakness, nerve tissue injuries, blackfoot disease and intellectual impairment.
Current systems are neither cost-effective nor efficient at removing arsenic. The UTS team is working with local Vietnamese partners on a local solution to a local problem in an area of about 20 million people. Partners include the Vietnam National University (VNU), Vietnam Academy of Science and Technology (VAST) and local manufacturers.
They are deploying inexpensive technology to provide a model for clean water, which can be adopted worldwide to improve water quality for 130+ million people in the 70 + countries worldwide experiencing toxicity from naturally-occurring arsenic.
There are three key components to this system: an organic membrane, a tank/drum in which the membrane is inserted, and an absorptive cartridge made from locally-available industrial waste products.
Distinguished Professor Vigneswaran
Local manufacturers can produce, install and maintain the membranes and the cartridges, creating local jobs in an area of high population growth.
The filtration can be powered by gravity or solar, or by hand pump membranes which will last up to three years, while the cartridges absorb the arsenic and are periodically removed (3–6 months) and replaced with new ones. The waste cartridges will be turned into safe building materials, so the system safely disposes of arsenic waste.
The system will also remove bacteria and solids from the contaminated groundwater, delivering water which is clean and safe to drink, and is scalable: for example, a 10 cubic metre system will provide uncontaminated water for 100 people.
So this sustainable system will both maximise locally sourced resources and minimise arsenic waste and environmental pollution, improving health and quality of life.
About the prize
The prizewinner receives $500,000 prize to support their work in improving the lives of people in the Indo-Pacific region through the innovative use of technology.
The innovationXchange identifies, trials and scales innovative new approaches to foreign aid to improve the effectiveness and impact of Australia’s aid program. The partnership with Google.org used an open call for innovation to encourage entrepreneurs, not-for-profits, experts and academics to bring new technologies to Australia’s aid program.