Search for European Projects

5 European Projects Found

Searched on 125080 European Projects

 FINISHED 
Background Municipal solid waste can be treated through incineration, recycling, composting, or sent to landfill. Landfilling is considered the worst solution as it takes up valuable land space, and it also causes air, water and soil pollution. The share of landfilled waste has decreased to be replaced by incineration and the number of incineration plants ...
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 3

 FINISHED 
The REE4EU project will develop, validate and demonstrate in 2 industrially relevant Pilots an innovative Rare Earth Alloys (REA) production route from Permanent Magnets (PM) and Secondary Batteries (SB) waste. Currently only 1% of RE waste is being recovered as no adequate process is available, so proof-of-concept in REE4EU will open-up a fully new route bringing recovery of 90% of in-process was ...
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 14

 FINISHED 

Lithium Sulfur Superbattery Exploitating Nanotechnology (LISSEN)

Start date: Sep 1, 2012, End date: Aug 31, 2015,

"This project is aimed to the identification and development of nanostructured electrode and electrolyte materials to promote the practical implementation of the very high energy lithium-sulfur battery. In particular, the project will be directed to the definition and test of a new, lithium metal-free battery configuration based on the use of lithiated silicon as the anode and a nanostructured sul ...
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 16

 FINISHED 

Green Electronics – Sustainable Product Manufacturing (GREENELEC)

Start date: Jan 1, 2012, End date: Dec 1, 2014,

The main goal of GreenElec is to achieve more efficient use of resources by designing and manufacturing electronics that enable more effective recycling. A large fraction of critical materials is used in electronics. Recovery is at present limited: most of the materials are downgraded or completely lost. Effective recovery of materials implies that end-of-life separation and treatment must already ...
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 15

 FINISHED 
"This project aims to the development at an initial industrial level of an advanced, lithium ion battery for efficient application in the sustainable vehicle market. The basic structure of this battery involves a lithium-metal (tin)-carbon, Sn-C, alloy anode, a lithium nickel manganese oxide, LiNi0.5Mn1.5O4, cathode and a ceramic-added, gel-type membrane electrolyte. This battery is expected to m ...
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