ankara escort izmir escort izmir escort rus porno travesti porno 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 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 jigolo olmak istiyorum jigolo arayan bayanlar jigolo istanbul jigolo olmak istiyorum film izle ataşehir escort ataşehir escort ataşehir escort ataşehir escort ataşehir escort

kredi

istanbul escort konyaalti escort Aerosol and Particle Technology Laboratory - SMART

SMART

SMART NOx abatement systems for Next-Generation Environmental Technologies                                                                              

Title of Programme
FP5 - COMPETITIVE AND SUSTAINABLE GROWTH (GROWTH) PROGRAMME
RTD Activities of a Generic Nature : materials and their technologies for production and transformation and new and improved materials and production technologies in the steel field
Financing Code for Project
GRD1-2001-40473
Project start year - end year 2002 - 2005
Financing organisation
EUROPEAN COMMISSION
RESEARCH DIRECTORATE-GENERAL
Shared-cost RTD project
Coordinator Robert Bosch GmbH
Other partners
Johnson Matthey PLC (JM)
Centro Ricerche Fiat (CRF)
University of Patras (UPATRAS)
University of Cambridge (CAM-AC)
University of Messina (UNIME)
Aerosol and Particle Technology Laboratory (APTL)
Ecole Polytechnique Fédérale de Lausanne (EPFL)
Warsaw University of Technology (UNI-WARSAW)
Budget / APTL Budget 4,166,090€ / 397,927€
Scientific Manager / Project researcher A. G. Konstandopoulos / D. Zarvalis
Project website http://cordis.europa.eu/
Summary
The project was related to advanced smart materials characterized by a self- tunable and adaptive activity to be applied as novel catalytic devices for the removal of NOx in car exhaust emissions containing oxygen (lean burn and diesel engines) and novel highly sensitive NOx sensors able to operate with oxygen concentrations up to 20%. The main objectives were to
  1. reach a NOx reduction higher than 50% in the presence of oxygen,
  2. develop NOx sensors which can detect NOx in concentrations lower than 100 ppm even in the presence of O2,
  3. demonstrate the techno-economical feasibility and advantages of combining and integrate NOx sensors and catalysts controlled and promoted by non-faraidic electrochemical effect,
  4. show the feasibility of developing smart catalytic device for a range of different applications.

 

Back to Projects