beylikdüzü escort beylikdüzü escort ankara escort izmir escort şişli escort ataşehir escort pendik escort kartal escort maltepe escort ataşehir escort maltepe escort ataşehir escort ataşehir escort maltepe escort maltepe escort escort atakoy escort istanbul escort kadikoy escort avcilar escort Bursa Escort ankara escort eryaman escort ankara escort ankara escort kartal escort alanya escort manavgat escort maltepe escort porno sex ankara escort ankara escort bayan escort eryaman escort kızılay escort ankara escort ankara escort ankara escort ankara escort ankara escort nsgbahis betcup vdcasino ngsbahis betvole jigolo sitesi profesyonel jigolo sitesi jigolo ilanları bedava jigolo jigolo üyeligi ataşehir escort ataşehir escort ataşehir escort ataşehir escort ataşehir escort

kredi

istanbul escort konyaalti escort Ankara escort ankara escort bayan escort ankara escort ankara bayan ankara escort bayan ankara escortlar Aerosol and Particle Technology Laboratory - COMETNANO

COMETNANO

Technologies for Synthesis, Recycling and Combustion of Metallic Nanoclusters as Future Transportation Fuels               

Title of Programme
FP7-NMP-2008-SMALL-2
Financing Code for Project
CP-FP 229063-2
Project start year - end year 2009 - 2012
Financing organisation
EUROPEAN COMMISSION
DIRECTORATE-GENERAL FOR RESEARCH & INNOVATION-FP7- Collaborative project
Coordinator Aerosol and Particle Technology Laboratory (APTL)
Other partners
Universidad Politécnica de Valencia (UPVLC)
Budget / APTL Budget 2,407,859 € / 882,160 €
Scientific Manager / Project researcher
Project website
Summary
COMETNANO was an EU-funded, 3-year project focusing on the evaluation of metallic nanoparticles as potential fuels for Internal Combustion Engines (ICEs). It was an integrated approach studying the synthesis of metallic nanoparticles, their controlled combustion under realistic conditions and the recycling of such spent fuels by renewable means. The project entails:
  • The production of tailor-made metal fuel nanoparticles with controllable combustion rates.
  • The utilization of an environmental-friendly way for the recycling of burned residual particles, employing 100% renewable energy technology. Under such a concept, metal particles become an energy carrier and a means of converting renewable energy into a medium that can be stored and transported easier and safer.
  • The innovative exploitation of low-cost raw materials, such as discarded fractions/wastes or by-products of metal industries, for the production of the metallic nanoparticles.
  • The introduction of required modifications, based on the existing mature technology of conventional ICEs, for the definition of the first metal-fuelled ICE.
  • The investigation of any potential environmental and health dangers of the new technology and the design of abatement measures.

Back to Projects