Summary
Water-stress in an increasing global problem and solutions such as water recycling and seawater desalination are now
becoming a necessary part of the water infrastructure. The technology for the production of safe drinking is increasingly
dependent on these more diverse sources and a key enabling technology is membrane filtration. While membrane system
are effective, the operating costs of such systems are hampered by fouling which increases the energy requirement for
process operation. The unique idea of this Proof of Concept is to develop an electrospun nanostructured membrane which
can be integrated into water filtration technologies. The unique method of fabrication will produce an inherently antibacterial
and antibiofouling surface in a one-step process, cutting the number of manufacturing steps. This concept, when deployed
commercially is expected to dramatically reduce the operating costs of membrane processes for water treatment. The
commercialisation route of the product will be through the patent protection and the licensing of the technology with a view
to rapid commercialisation.
becoming a necessary part of the water infrastructure. The technology for the production of safe drinking is increasingly
dependent on these more diverse sources and a key enabling technology is membrane filtration. While membrane system
are effective, the operating costs of such systems are hampered by fouling which increases the energy requirement for
process operation. The unique idea of this Proof of Concept is to develop an electrospun nanostructured membrane which
can be integrated into water filtration technologies. The unique method of fabrication will produce an inherently antibacterial
and antibiofouling surface in a one-step process, cutting the number of manufacturing steps. This concept, when deployed
commercially is expected to dramatically reduce the operating costs of membrane processes for water treatment. The
commercialisation route of the product will be through the patent protection and the licensing of the technology with a view
to rapid commercialisation.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/768731 |
| Start date: | 01-10-2017 |
| End date: | 31-03-2019 |
| Total budget - Public funding: | 148 805,00 Euro - 148 805,00 Euro |
Cordis data
Original description
Water-stress in an increasing global problem and solutions such as water recycling and seawater desalination are nowbecoming a necessary part of the water infrastructure. The technology for the production of safe drinking is increasingly
dependent on these more diverse sources and a key enabling technology is membrane filtration. While membrane system
are effective, the operating costs of such systems are hampered by fouling which increases the energy requirement for
process operation. The unique idea of this Proof of Concept is to develop an electrospun nanostructured membrane which
can be integrated into water filtration technologies. The unique method of fabrication will produce an inherently antibacterial
and antibiofouling surface in a one-step process, cutting the number of manufacturing steps. This concept, when deployed
commercially is expected to dramatically reduce the operating costs of membrane processes for water treatment. The
commercialisation route of the product will be through the patent protection and the licensing of the technology with a view
to rapid commercialisation.
Status
CLOSEDCall topic
ERC-2017-PoCUpdate Date
27-04-2024
Geographical location(s)
