Description: Das Projekt "Development of Nanotechnology-based High-performance Opaque & Transparent Insulation Systems for Energy-efficient Buildings (NANOINSULATE)" wird vom Umweltbundesamt gefördert und von BASF SE durchgeführt. NANOINSULATE will develop durable, robust, cost-effective opaque and transparent vacuum insulation panels (VIPs) incorporating new nanotechnology-based core materials (nanofoams, aerogels, aerogel composites) and high-barrier films that are up to four times more energy efficient than current solutions. These new systems will provide product lifetimes in excess of 50 years suitable for a variety of new-build and retrofit building applications. Initial building simulations based on the anticipated final properties of the VIPs indicate reductions in heating demand of up to 74Prozent and CO2 emissions of up to 46Prozent for Madrid, Spain and up to 61Prozent and 55Prozent respectively for Stuttgart, Germany for a building renovation which reduces the U-value of the walls and roof from 2.0 W m-2 K-1 to 0.2 W m-2 K-1. This reduction could be achieved with NANOINSULATE products that are only 25 mm thick, giving a cost-effective renovation without the need of changing all the reveals and ledges. Similarly, significant reductions in U-values of transparent VIPs (3 W m-2 K-1 to 0.5 W m-2 K-1) are shown by substituting double glazed units in existing building stock. Six industrial & four research based partners from seven EU countries will come together to engineer novel solutions capable of being mass produced. Target final manufacturing costs for insulation board (production rates above 5 million m2/year) are less than 7 m-2 for a U-value of 0.2 W m-2 K-1. NANOINSULATE will demonstrate its developments at construction sites across Europe. A Lifecycle Assessment, together with a safety and service-life costing analysis, will be undertaken to prove economic viability. NANOINSULATE demonstrates strong relevance to the objectives and expected impacts of both the specific call text of the Public-Private Partnership Energy-efficient Buildings topic New nanotechnology-based high performance insulation systems for energy efficiency within the 2010 NMP Work Programme and the wider NMP & Energy Thematic Priorities. Prime Contractor: Kingsplan Research and Developments Ltd.; Kingscourt; Irland.
Types:
SupportProgram
Origin: /Bund/UBA/UFORDAT
Tags: Stuttgart ? Zweifachverglasung ? Verbundwerkstoff ? CO2-Emission ? Transparente Wärmedämmung ? Madrid ? Baugenehmigungsverfahren ? Wärmedämmung ? Bundesrepublik Deutschland ? Irland ? Material ? Gebäude ? Wärmebedarf ? Anlagenoptimierung ? Kohlendioxid ? Kostenrechnung ? Ökobilanz ? EU-Länder ? Energieeffizientes Bauen ? Baustelle ? Bewertung ? Bohrkern ? Emission ? Energie ? Energiebedarf ? Energieeinsparung ? Nachrüstung ? Produktionskosten ? Simulation ? Standortwahl ? Wirtschaftlichkeit ? Gebäudesanierung ? Bodenbelag ? Öffentlich-Private Partnerschaft ? Wirkung ? Forschung und Entwicklung ? Europa ? Energieeffizienz ? Bauen im Bestand ? Gebäudebestand ? Lagerung ? Heizung ? Produkt ? Arbeit ? Bauelement ? Bedarf ? Umweltschutz ? Dienstleistung ? Nanotechnologie ? Forschung ? Produktlebensdauer ? Produktion ? Kosten ? Spediteur ? LOESUNG ? VERRINGERUNG ? Muskelarbeit ? LAND ? LEISTUNGSFAEHIGKEIT ? NEU ? ENTWICKLUNG ? Buchgrundstück ? HINDERNIS ? Nanotechnology and Nanosciences ? PARTNERSCHAFT ? INDUSTRIELL ? INGENIEURWESEN ? Isolation [benutze Unterbegriffe] ? SPEZIFISCH ? WERT ? STARK ? KONNEX ? FAEHIG ? BEWERTEN ? LAENDER ? FILM ? FP7-NMP ? DACH ?
Region: Rheinland-Pfalz
Bounding box: 7.5° .. 7.5° x 49.66667° .. 49.66667°
License: cc-by-nc-nd/4.0
Language: Deutsch
Time ranges: 2010-07-01 - 2014-06-30
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