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TOWARDS NOVEL NANO SCALE TECHNOLOGIES BASED ON PHORETIC FLOW EFFECTS

Most devices that transport bulk fluids make use of pressure gradients (`pumps’) or external forces (e.g. gravity powers hydro-electric turbines). Increasingly, modern technology is addressing problems where fluid transport takes... see more

31/10/2021

3M€

Project Budget: 3M€

Project leader

UNIVERSIDAD DE BARCELONA No se ha especificado una descripción o un objeto social para esta compañía.

total researchers 325

PARTICIPATION DEPralty Sin fecha límite de participación.

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Financing granted El organismo H2020 notifico la concesión del proyecto The day 2021-10-31

FETOPEN-01-2016-2017: FET-Open research and innovation ac... Specific Challenge:The successful exploration of new foundations for radically new future technologi...

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characteristics of the participant

Este proyecto no cuenta con búsquedas de partenariado abiertas en este momento.

Private Information

No hay información privada compartida para este proyecto. Habla con el coordinador.

9 Participantes

573.75K€ | Leader

BALFEGO & BALFEGO SL

375.64K€ | participant

338.75K€ | participant

CNRS

891.25K€ | participant

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Project duration: 50 months Date Start: 2017-08-30
End date: 2021-10-31

Project leader

UNIVERSIDAD DE BARCELONA No se ha especificado una descripción o un objeto social para esta compañía.

total researchers 325

Project Budget 3M€

participation deadline Sin fecha límite de participación.

Project description Most devices that transport bulk fluids make use of pressure gradients (`pumps’) or external forces (e.g. gravity powers hydro-electric turbines). Increasingly, modern technology is addressing problems where fluid transport takes place in sub-micron sized channels, or in pores. The physical laws of transport in such channels are qualitatively different from those that determine bulk flow; they are poorly understood and, importantly, barely exploited. The aim of the proposed research is to lay the basis for an entire novel technology where thermal gradients and concentration gradients along nano-sized channels are harnessed to drive devices that have no equivalent on the macroscopic scale. Such gradient-driven surface flows offer a huge scope for fundamental advances with very significant technological implications. We envisage breakthroughs in the area of energy extraction from salinity gradients (`blue energy’), ultra-filtration and desalination, and the development of novel, highly sensitive protein-separation devices. This new approach will surpass the intrinsic limitations of current technologies. The expected huge improvement in efficiency will be a game changer and will break the current barriers in the development of technologies such as e.g osmotic energy harvesting. All the applications share the same underlying science and can therefore be addressed by the proposal team. We will engage with industrial partners inside the team and with new partners that we will approach through our Knowledge Transfer Facilitator, to translate basic science into proofs-of-principle, pilot plants and, subsequently, full scale applications. The potential economic impact of phoretic technologies is difficult to over-estimate: the research is truly high-risk, high-yield. By targeting two diverse applications, we exploit the generic nature of the underlying science. The quality and interdisciplinary nature of the team mitigates the risk of failure.

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