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13 European Projects Found

Searched on 125080 European Projects

 FINISHED 

Na-Ion bAttery Demonstration for Electric Storage (NAIADES)

Start date: Jan 1, 2015, End date: Dec 31, 2018,

Wide scale implementation of renewable energy will require growth in production of inexpensive, efficient energy storage systems. The extension of battery technology to large-scale storage will become necessary as intermittent renewable energy sources such as wind, solar and wave become more prevalent and integrated into electrical grid. Lithium-ion battery appears as quite mature for this applica ...
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 11

 FINISHED 
Innovation in the automotive industry is of pivotal importance for European´s prosperity. OSEM-EV will provide solutions for better autonomy and predictable range to address today´s car buyers concern about electro mobility. Just increasing the battery capacity is not a viable option because the expectation is to have a familiar level of comfort and safe, eco and human oriented mobility at afforda ...
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 13

 FINISHED 
For space missions, the energy density of batteries is a key factor of systems mass.A recent battery technology, based on this Lithium-Sulfur chemistry and developed by OXIS Energy, has shown promising results, particularly in terms of specific energy and cycling performances. Lithium-Sulfur batteries could become the next breakthrough technology for space batteries, with a factor of two on the sp ...
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 12

 FINISHED 

Joint Operation for Ultra Low Emission Shipping (JOULES)

Start date: Jun 1, 2013, End date: May 31, 2017,

Reducing emissions from shipping has increasingly become a challenge over the last years, both as a counter measure against global climate change and to protect local environments and population from waste, gas emissions and noise.This challenge has been documented both in policy papers, like the Europe 2020 initiative or the Transport White Paper, and in rules and regulations issued by IMO as wel ...
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 44

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The aim of NECOBAUT Project is to develop a new concept of battery for automotive based on a new metal/air technology that overcomes the energy density limitation of the Li-ion battery used at present for Electrical Vehicles. Some metal/air cells were developed in the past, but did not give the demanded requirements for commercial use. Two decades of improvements in materials for electrodes, elect ...
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 8

 FINISHED 

STAtionary BAtteries LI-ion safe Deployment (STABALID)

Start date: Oct 1, 2012, End date: Mar 31, 2015,

...ll be developed in close cooperation with Japan thanks to collaboration with selected projects financed by METI and NEDO. STABALID project is technically led by a world leading manufacturing company, SAFT, and involves a utility company as representative of end-users, EDP, as well as reference organizations for safety inspection, testing, certification, and for integrated risk management. Thus ,th ...
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 8

 FINISHED 
The global objective of the ELIBAMA project is to enhance and accelerate the creation of a strong European automotive battery industry structured around industrial companies already committed to mass production of Li-ion cells and batteries for EVs. Europe faces strong competition from Asia and the USA where more investments and production capacities for Li-ion batteries currently exist. The ELIBA ...
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 17

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Towards Zero Waste in Industrial Networks (ZeroWIN)

Start date: May 1, 2009, End date: Apr 30, 2014,

The first work package will define a common vision on zero-waste entrepreneurship within the first 6 months. The mythos Individual Producer Responsibility will be investigated if it can become the all-healing-solution in electronics industry as well as how this concept can be applied to other industrial sectors. WP2 concentrates on new technological developments, WP3 on waste prevention methodolog ...
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 33

 FINISHED 

TEchnologies and scenarios For Low Emissions Shipping (TEFLES)

Start date: Feb 1, 2011, End date: Jan 31, 2014,

Reduction of emissions in shipping is currently driven by new regulations and impact on wealth and climate change, while traffic steadily grows at up to 6% rates yearly in spite of economic recession. Ships on port approach, maneuvering up to mooring and on loading and unloading, also affect the local population. TEFLES addresses both sea and at port emissions scenarios by developing after treatme ...
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 14

 FINISHED 

High Energy Lithium-Ion Storage Solutions (HELIOS)

Start date: Nov 1, 2009, End date: Oct 31, 2013,

"The reluctance of OEM worldwide to extend electric drive applications to the private customers depends partly from considerations on customer acceptance (limited range in the case of EV, long charging time after depletion of the battery, cost), but also from the increased reliability and life span that private customers are entitled to expect.The first goal of HELIOS project is to evaluate electr ...
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 22

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"The electric ship concept offers many benefits; among other aspects if offers flexibility of control and effectiveness of power transmission. But predominantly it enables higher energy conversion efficiency by ensuring that prime movers are effectively loaded at all times and across all operating conditions. This dominating advantage cannot be matched by mechanical transmission systems because ge ...
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 34

 FINISHED 
Although the development of nanoparticles-based materials has advanced rapidly in recent years, industrial production techniques have not kept pace. At this point there is a substantial need for safe production facilities, enabling the synthesis of large amounts of metallic nanoparticles with controlled and uniform quality (particle size, particle size distribution, chemical composition, etc.). Th ...
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 6

 FINISHED 

Materials for high energy accumulators in traction and tools (MAHEATT)

Start date: Apr 1, 2009, End date: Mar 31, 2012,

A.1.2. Project summaryThe overall objective of the MAHEATT project is to develop a prototype cost-effective lithium-ion high energy battery technology with electrode performances well beyond the current state-of-the-art, with automotive applications (hybrid vehicles and electric traction) and hand held tools as application target areas. This will be achieved by innovative synthesis and design of r ...
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 8