Description: Das Projekt "European Network on New Sensing Technologies for Air-Pollution Control and Environmental Sustainability (EuNetAir)" wird vom Umweltbundesamt gefördert und von Max-Planck-Institut für Biogeochemie durchgeführt. The main objective of the Action is to develop new sensing technologies for Air Quality Control at integrated and multidisciplinary scale by coordinated research on nanomaterials, sensor-systems, air-quality modelling and standardised methods for supporting environmental sustainability with a special focus on Small and Medium Enterprises. ABSTRACT AND KEYWORDS: This Action will focus on a new detection paradigm based on sensing technologies at low cost for Air Quality Control (AQC) and set up an interdisciplinary top-level coordinated network to define innovative approaches in sensor nanomaterials, gas sensors and devices, wireless sensor-systems, distributed computing, methods, models, standards and protocols for environmental sustainability within the European Research Area (ERA). The state-of-the-art showed that research on innovative sensing technologies for AQC based on advanced chemical sensors and sensor-systems at low-cost, including functional materials and nanotechnologies for eco-sustainability applications, the outdoor/indoor environment control, olfactometry, air-quality modelling, chemical weather forecasting, and related standardisation methods is performed already at the international level, but still needs serious efforts for coordination to boost new sensing paradigms for research and innovation. Only a close multidisciplinary cooperation will ensure cleaner air in Europe and reduced negative effects on human health for future generations in smart cities, efficient management of green buildings at low CO2 emissions, and sustainable economic development. The objective of the Action is to create a cooperative network to explore new sensing technologies for low-cost air-pollution control through field studies and laboratory experiments to transfer the results into preventive real-time control practises and global sustainability for monitoring climate changes and outdoor/indoor energy efficiency. Establishment of such a European network, involving Non-COST key-experts, will enable EU to develop world capabilities in urban sensor technology based on cost-effective nanomaterials and contribute to form a critical mass of researchers suitable for cooperation in science and technology, including training and education, to coordinate outstanding R&D and promote innovation towards industry, and support policy-makers.
Types:
SupportProgram
Origin: /Bund/UBA/UFORDAT
Tags: CO2-Emission ? Biogeochemie ? Gasnetz ? Smart City ? Messstellennetz ? Sensor ? Skigebiet ? Technologietransfer ? Main ? Luftqualitätsüberwachung ? Genossenschaft ? Innenstadt ? Kleine und mittlere Unternehmen ? Olfaktometrie ? Ökologisches Bauen ? Industrie ? Luftverschmutzung ? Luft ? Luftemission ? Facility Management ? Energieeffizienztechnik ? Nachhaltigkeitsziel ? Stand der Technik ? Nachhaltiges Bauen ? Chemikalien ? Feldstudie ? Rechtsverfahren ? Innovation ? Monitoring ? Standardmethode ? Technik ? Werkstoffkunde ? Wettervorhersage ? Wirtschaftsentwicklung ? Laborversuch ? Stadt ? Modellierung ? Koordinatensystem ? Menschliche Gesundheit ? Europa ? Non-phase-in Stoff ? Sensorische Bestimmung ? Ökologische Nachhaltigkeit ? Bildung ? Ausbildung ? Nachhaltigkeit ? Standardisierung ? Bedarf ? Technischer Fortschritt ? Vorsorgeprinzip ? Forschung ? Zusammenarbeit ? Forschungseinrichtung ? Globale Aspekte ? Kosten ? Nanotechnologie ? Klimawandel ? Nanomaterialien ? METHODE ? INITIATIVE ? KONTROLLE ? Koordinate ? LEISTUNGSFAEHIGKEIT ? KOORDINIERUNG ? ECHTZEIT ? gas sensors ? Klimaexperiment ? DACH ? sensor functional materials ? Mittel ? ERGEBNIS ? standardisation methods for environmenta ? NACHWEIS ? NEU ? Eichung ? Netz ? STAATLICHE KONTROLLE ? BESONDER ? DRAHTLOS ? STILLGELEGT ? sensing nanostructures ? air quality control/monitoring ? FOERDERN ? wireless sensor-systems with distributed ? chemical weather forecasting ? protocols ? FORTSCHRITTLICH ? environmental measurements/modelling ?
Region: Thuringia
Bounding box: 11° .. 11° x 50.91667° .. 50.91667°
License: cc-by-nc-nd/4.0
Language: Deutsch
Time ranges: 2012-07-01 - 2016-06-30
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