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Content archived on 2024-06-18

Nano-structured TiON Photo-Catalytic Membranes for Water Treatment

Objective

More than 1.2 billion people, mostly in poor regions, suffer from water scarcity, due to a global shortfall of potable water caused by population growth, over-exploitation, and pollution. NATIOMEM proposes to alleviate this by developing novel technology for treating contaminated surface and waste water so that it will be potable. This technology will not require electrical power, chemicals or other logistical support, and hence will be suitable for poor areas lacking infrastructure. The technology uses membranes functionalized with a photocatalytic material, eg. N-doped TiO2 (TiON). Raw water will be directed through the membrane while it is exposed to solar radiation. The membrane will filter out particles and micro-organisms larger than the its pore size, and TiON photocatalysis will kill micro-organisms, decompose and mineralize organic pollutants, and oxidize dissolved metals, thus providing a one-step treatment against a broad spectrum of contaminants. In the NATIOMEM project, functionalized membranes will be developed with two approaches: (1) coating conventional membranes with TiON nanostructured films, using several candidate deposition methods, and (2) electrospinning TiON fibers, from which membranes will be fabricated. The functionalized membranes will be characterized for their morphological, physical, mechanical, chemical, and in particular, their photocatalytic properties, and the most effective will be extensively tested to determine their pollution abatement mechanisms and kinetics. A pilot plant incorporating these photocatalytic membranes will be designed, and field tested in the Middle East and in Africa. The results of these tests will be correlated with potential end-user requirements to set the stage for industrial exploitation. Achieving this result will be a breakthrough in water purification and reclamation technology, advancing far beyond the state of the art with a system which is simple, solar enabled, and chemical free.

Call for proposal

FP7-NMP-2009-SMALL-3
See other projects for this call

Coordinator

DHI
EU contribution
€ 568 076,00
Address
AGERN ALLE 5
2970 HOERSHOLM
Denmark

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Activity type
Research Organisations
Administrative Contact
Hans Enggrob (Mr.)
Links
Total cost
No data

Participants (7)