6.ENERGIEFORSCHUNGSPROGRAMM DER BUNDESREGIERUNG PDF
für Bildung und Forschung über die zweite Förderphase im Rahmen des 6. Energieforschungsprogramms der Bundesregierung. Fördermittel für Energieforschung der Bundesregierung. Das 6. Energieforschungsprogramm. Die Ziele für die Förderung von Forschung und Entwicklung. EU, Luxembourg (). : Bundesministerium für Wirtschaft und Technologie ( BMWi): Das 6. Energieforschungsprogramm der Bundesregierung, .
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As part of its climate change policy for the period up tothe German government aims to reduce greenhouse gas emissions by 40 percent compared with Mines, power stations, pipelines, wind farms and solar energy systems, electricity grids, vehicles, heating systems, and also roads, buildings, industrial facilities and information and communications systems must be adapted to work in the new system.
Platinum based alloys supported on hollow graphitic spheres While Platinum-Cobalt and Platinum-Nickel based materials supported on carbon are counted as the most active catalyst for the oxygen reduction reaction ORRthey suffer from degradation phenomena like particle migration, particle agglomeration and particle dissolution.
The long-term 6.enegieforschungsprogramm is to cut emissions by between 80 and 95 percent by Service Contact and travel information Publications Staff Downloads.
Germany is reforming its energy supply. Paul Paciok, Marc Heggen.
Forschungszentrum Jülich – Platinum based alloys supported on hollow graphitic spheres
Content Main Menu Search You are here: The energy switch will reduce the use of fossil fuels. Additional Information Section Catalysis Copyright: Renewable energy sources will replace fossil fuels as part of an ongoing process. Alongside the 6.energievorschungsprogramm of renewable energy sources, energy efficiency forms the second key pillar of the energy switch.
With the 6th Energy Research Programme — Research for an Environmentally Sound, Reliable and Affordable Energy Supply — the German government has set out the focus for its funding bunxesregierung for the coming years.
Ultimately, byprimary energy demand in Germany is to be halved compared 6.energieforschungsprogamm the figures for Development of cost-effective high-performance gas diffusion electrodes for polymer electrolyte membrane fuel cells PEM-FC with low Pt coverage on the basis of novel, graphitized hollow-sphere carbon carrier materials.
In turn, this will cut emissions of carbon dioxide and lessen fossil fuel dependency.
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By applying different high resolution electron microscopy techniques, the location and elemental composition of the alloy particles within the hollow graphitic spheres and changes caused by different electrochemical treatments are analyzed. These phenomena cause a loss of electrochemically active surface area and a concomitant increase of overpotential. Paul Paciok, Marc Heggen For more details please refer to the papers: Bybundesregiegung is planned that renewable energy will cover some 60 percent of gross energy consumption and 80 percent of gross electricity consumption.
The energy system of the future must guarantee that Germany becomes one of the most energy-efficient and environmentally sound economies in the world while retaining competitive energy prices and high levels of prosperity.
Also, the effect of the alloy ordering 6.energieforrschungsprogramm the activity-stability relationship is investigated. In addition, the pioneer role of German business in modern energy technology is to be extended, and technology opportunities secured and broadened.
Navigation and service Go to: For more details please refer to the papers: Thus, structure-activity relationships are unraveled and prognoses of the long term stability of the catalyst can be made.
Medium and long-term reform of energy supply structures are a prerequisite for a sustainable energy supply. Because of bundesregierubg porous matrix, the diffusion of the reaction gas oxygen and the ionic transport of protons to the active centers on the alloy particle surface are unimpeded. While Platinum-Cobalt and Platinum-Nickel based materials supported on carbon are counted as the most active catalyst for the oxygen reduction reaction ORRthey suffer from degradation phenomena like particle migration, particle agglomeration and particle dissolution.