Cvd Technologies

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	Roll-to-roll manufacturing technology for high efficient multi-junction thin film silicon flexible photovoltaic modules SE-POWERFOIL 2006 - 2009 Sujets : Scientific Research, Policies, Resources of the Sea, Fisheries, Renewable Sources of Energy, Waste Management, Energy Saving, Social Aspects, Other Energy Topics, Innovation, Technology Transfer, Transport, Energy Storage, Energy Transport, Meteorology, Environmental Protection, Fossil Fuels Other Indexes:to,technology,manufacturing,roll Type de contrat : Specific Targeted Research Project Participants : HELIANTHOS B.V. NEDERLAND HELIANTHOS B.V. Industry HELIANTHOS SOLAR CELLS PO Box 9300 Velperweg 76 NEDERLAND FYZIKALNI USTAV AV CR CESKA REPUBLIKA FYZIKALNI USTAV AV CR Research DEPARTMENT OF OPTICAL CRYSTALS, INSTITUTE OF PHYSICS NA SLOVANCE 2 CESKA REPUBLIKA FORSCHUNGSZENTRUM JUELICH GMBH DEUTSCHLAND FORSCHUNGSZENTRUM JUELICH GMBH INSTITUT FUR PHOTOVOLTAIK (IPV) Leo-Brandt-Strasse DEUTSCHLAND CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)- FRANCE CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE (CNRS)- LABORATOIRE DE PHYSIQUE DES INTERFACES ET DES COUCHES MINCES (LPICM) 3, rue Michel-Ange FRANCE UNIVERSITY OF SALFORD UNITED KINGDOM UNIVERSITY OF SALFORD INSTITUTE FOR MATERIALS, SALFORD UNIVERSITY The Crescent 43 UNITED KINGDOM UNIVERSITEIT UTRECHT NEDERLAND UNIVERSITEIT UTRECHT SURFACE, INTERFACES AND DEVICES Heidelberglaan 8 NEDERLAND UNIRESEARCH BV NEDERLAND UNIRESEARCH BV Other UNIRESEARCH B.V. Elektronicaweg 16 c NEDERLAND HELIANTHOS Netherlands HELIANTHOS Industry HELIANTHOS SOLAR CELLS PO Box Velperweg 76 Netherlands CVD TECHNOLOGIES United Kingdom CVD TECHNOLOGIES Industry Cockroft Building, University of Salford Campus, T M5 4WT United Kingdom Hide objective SE-POWERFOIL aims at the development of roll-to-roll manufacturing technology for production of high-efficiency flexible photovoltaic (PV) modules. These modules allow for easy integration and installation leading to low-cost PV systems with kWh costs down to 0.10Euro/kWh or less. This is essential to create mature, subsidy-independent markets for solar electricity, cost competitive with conventional electricity sources. The target is to develop stable 12% efficient, PV modules, with more than 20 years out door lifetime and manufacturing costs below 0.5 Euro/Wp.Flexible PV laminates will allow versatile use in growth markets with billion Euro sized economic potential:1. Large power markets in which the PV laminates greatly will contribute to European objectives to establish a future sustainable, independent electricity supply system and to strengthen Europe's industry and export position2. Mass markets where flexible solar cell laminates provide cost efficient, light weight, portable power, including e.g. personal electronics, ICT, security, leisure, medical, military and affordable power for electrification in rural and remote regions.The workplan focuses on the following key issues:a) use of low-cost base materials and minimal materials consumption for devices;b) improvement of the efficiency;c) strong reduction of the production costs andd) accelerated lifetime testing (acc. IEC 61646) and outdoor monitoringThe objectives match the priority targets of PTA 6.1.3.2.6. (CALL 2006.ML). The consortium (8 participants, representing 5 EU Member States) comprises a leading developer/manufacturer of flexible PV foils and modules, a company specialized in chemical vapour deposition technology, an innovation management specialist (two of the three companies are SMEs), two research institutes and three universities each with their specific expertise in thin film silicon photovoltaic research and process technology. Source : cordis   PRODUCTION OF THERMOCHROMIC GLAZINGS FOR ENERGY SAVING APPLICATIONS TERMOGLAZE 2005 - 2007 Sujets : Innovation, Technology Transfer, Coordination, Cooperation, Evaluation, Policies, Scientific Research Type de contrat : No contract type Participants : LABOR S.R.L. ITALIA LABOR S.R.L. Research RENEWABLE ENERGIES Via della Scrofa 117 ITALIA UNIVERSITY COLLEGE LONDON. UNITED KINGDOM UNIVERSITY COLLEGE LONDON. Education CHEMISTRY DEPT Gower Street UNITED KINGDOM UNIVERSIDADE DO MINHO PORTUGAL UNIVERSIDADE DO MINHO Education CENTRO DE FÍSICA Largo do Paço PORTUGAL ENERCOME S.L. ESPAÑA ENERCOME S.L. Industry Av. San Juan Lopez Peñalver 21 ESPAÑA INSTITUTO AGILUS DE INOVACAO EM TECNOLOGIAS DE INFORMACAO, LDA PORTUGAL INSTITUTO AGILUS DE INOVACAO EM TECNOLOGIAS DE INFORMACAO, LDA Research Av.Fernao Magalhaes, 110-1° D PORTUGAL ESTRUTURAS METALICAS FLORPOVOA Portugal ESTRUTURAS METALICAS FLORPOVOA Industry ESTRUTURAS METALICAS FLORPOVOA LDA Rua da Estela, n.º Portugal ENERCOME Spain ENERCOME Industry Av. San Juan Lopez Peñalver 21 Spain AGT Italy AGT Industry AGT SRL Via Vigliena 10 Italy SIVIS Italy SIVIS Industry Area Industriale Italy CVD TECHNOLOGIES United Kingdom CVD TECHNOLOGIES Industry Cockroft Building, University of Salford Campus, T M5 4WT United Kingdom THERMOGRAPHIC MEASUREMENTS United Kingdom THERMOGRAPHIC MEASUREMENTS Industry THERMOGRAPHIC MEASUREMENTS LTD Reme Drive, Heathpark Industrial Estate United Kingdom Hide objective Glazed surfaces are increasingly adopted in buildings but are responsible for the highest part of the energy needs of building (about 25-30%), which constitute 40% of total energy consumption in Europe. In a moderate climate, typical of European countries, buildings are subjected in some seasons to overheating, while high solar gains are desired to support space heating during other seasons. An optimal glazing should then have high solar transmittance in winter to enhance passive solar energy utilisation, while a low transmission in the solar infrared region in summer to avoid overheating or high cooling loads. The aim of the TERMOGLAZE is to realise a thermochromic switchable glazing, that adapts itself to the external climatic condition in order to optimise its behaviour, behaving like a clear surface below the transition temperature: high shading coefficient (i.e. high heat gain due to solar radiation ) and high visible transmittance; and like a spectrally selective surface above transition temperature: low shading coefficient (i.e. low heat gain) and high visible transmittance, hence without loosing too much visibility to the outside. Aim of the TERMOGLAZE project is to develop such an innovative product and an affordable and low cost production process, based on Athmospheric Pressure CVD. Targets of the TERMOGLAZE are: limited change in the visible spectrum but very significant changes in the IR portion above transition temperature: visible transmittance 50-60%, shading coefficient 40%; virtually no change in the visual aspect: colour, visibility; transition temperatures optimised for different climatic conditions in the range 20-35??C; very narrow width of hysteresis around the transition temperature; good mechanical and physical durability of the TC layer, to be realised as a solid state very thin layer (less than 250 nm); low cost investment for installation of equipment; production cost of the TC layer up to 20% of the cost of the underlying window. Source : cordis   PRODUCTION OF THERMOCHROMIC GLAZINGS FOR ENERGY SAVING APPLICATIONS TERMOGLAZE 2005 - 2007 Sujets : Economic Aspects, Scientific Research Type de contrat : SMEs-Co-operative research contracts Participants : LABOR S.R.L. ITALIA LABOR S.R.L. Research RENEWABLE ENERGIES Via della Scrofa 117 ITALIA UNIVERSIDADE DO MINHO PORTUGAL UNIVERSIDADE DO MINHO Education CENTRO DE FÍSICA Largo do Paço PORTUGAL UNIVERSITY COLLEGE LONDON. UNITED KINGDOM UNIVERSITY COLLEGE LONDON. Education CHEMISTRY DEPT Gower Street UNITED KINGDOM ENERCOME S.L. ESPAÑA ENERCOME S.L. Industry Av. San Juan Lopez Peñalver 21 ESPAÑA INSTITUTO AGILUS DE INOVACAO EM TECNOLOGIAS DE INFORMACAO, LDA PORTUGAL INSTITUTO AGILUS DE INOVACAO EM TECNOLOGIAS DE INFORMACAO, LDA Research Av.Fernao Magalhaes, 110-1° D PORTUGAL ESTRUTURAS METALICAS FLORPOVOA Portugal ESTRUTURAS METALICAS FLORPOVOA Industry ESTRUTURAS METALICAS FLORPOVOA LDA Rua da Estela, n.º Portugal ENERCOME Spain ENERCOME Industry Av. San Juan Lopez Peñalver 21 Spain AGT Italy AGT Industry AGT SRL Via Vigliena 10 Italy SIVIS Italy SIVIS Industry Area Industriale Italy CVD TECHNOLOGIES United Kingdom CVD TECHNOLOGIES Industry Cockroft Building, University of Salford Campus, T M5 4WT United Kingdom THERMOGRAPHIC MEASUREMENTS United Kingdom THERMOGRAPHIC MEASUREMENTS Industry THERMOGRAPHIC MEASUREMENTS LTD Reme Drive, Heathpark Industrial Estate United Kingdom Hide objective Glazed surfaces are increasingly adopted in buildings but are responsible for the highest part of the energy needs of building (about 25-30%), which constitute 40% of total energy consumption in Europe.In a moderate climate, typical of European countries, buildings are subjected in some seasons to overheating, while high solar gains are desired to support space heating during other seasons. An optimal glazing should then have high solar transmittance in winter to enhance passive solar energy utilisation, while a low transmission in the solar infrared region in summer to avoid overheating or high cooling loads. The aim of the TERMOGLAZE is to realise a thermochromic switchable glazing, that adapts itself to the external climatic condition in order to optimise its behaviour, behaving like a clear surface below the transition temperature: high shading coefficient (i.e. high heat gain due to solar radiation ) and high visible transmittance; and like a spectrally selective surface above transition temperature: low shading coefficient (i.e. low heat gain) and high visible transmittance, hence without loosing too much visibility to the outside. Aim of the TERMOGLAZE project is to develop such an innovative product and an affordable and low cost production process, based on Athmospheric Pressure CVD. Targets of the TERMOGLAZE are: limited change in the visible spectrum but very significant changes in the IR portion above transition temperature: visible transmittance 50-60%, shading coefficient 40%; virtually no change in the visual aspect: color, visibility; transition temperatures optimised for different climatic conditions in the range 20-35°C; very narrow width of hysteresis around the transition temperature; good mechanical and physical durability of the TC layer, to be realised as a solid state very thin layer (less than 250 nm); low cost investment for installation of equipment; production cost of the TC layer up to 20% of the cost of the underlying window. Source : cordis   PRODUCTION OF THERMOCHROMIC GLAZINGS FOR ENERGY SAVING APPLICATIONS TERMOGLAZE 2005 - 2007 Sujets : Innovation, Technology Transfer, Coordination, Cooperation, Evaluation, Policies, Scientific Research Type de contrat : No contract type Participants : LABOR S.R.L. ITALIA LABOR S.R.L. Research RENEWABLE ENERGIES Via della Scrofa 117 ITALIA UNIVERSITY COLLEGE LONDON. UNITED KINGDOM UNIVERSITY COLLEGE LONDON. Education CHEMISTRY DEPT Gower Street UNITED KINGDOM UNIVERSIDADE DO MINHO PORTUGAL UNIVERSIDADE DO MINHO Education CENTRO DE FÍSICA Largo do Paço PORTUGAL ENERCOME S.L. ESPAÑA ENERCOME S.L. Industry Av. San Juan Lopez Peñalver 21 ESPAÑA INSTITUTO AGILUS DE INOVACAO EM TECNOLOGIAS DE INFORMACAO, LDA PORTUGAL INSTITUTO AGILUS DE INOVACAO EM TECNOLOGIAS DE INFORMACAO, LDA Research Av.Fernao Magalhaes, 110-1° D PORTUGAL ESTRUTURAS METALICAS FLORPOVOA Portugal ESTRUTURAS METALICAS FLORPOVOA Industry ESTRUTURAS METALICAS FLORPOVOA LDA Rua da Estela, n.º Portugal ENERCOME Spain ENERCOME Industry Av. San Juan Lopez Peñalver 21 Spain AGT Italy AGT Industry AGT SRL Via Vigliena 10 Italy SIVIS Italy SIVIS Industry Area Industriale Italy CVD TECHNOLOGIES United Kingdom CVD TECHNOLOGIES Industry Cockroft Building, University of Salford Campus, T M5 4WT United Kingdom THERMOGRAPHIC MEASUREMENTS United Kingdom THERMOGRAPHIC MEASUREMENTS Industry THERMOGRAPHIC MEASUREMENTS LTD Reme Drive, Heathpark Industrial Estate United Kingdom Hide objective Glazed surfaces are increasingly adopted in buildings but are responsible for the highest part of the energy needs of building (about 25-30%), which constitute 40% of total energy consumption in Europe. In a moderate climate, typical of European countries, buildings are subjected in some seasons to overheating, while high solar gains are desired to support space heating during other seasons. An optimal glazing should then have high solar transmittance in winter to enhance passive solar energy utilisation, while a low transmission in the solar infrared region in summer to avoid overheating or high cooling loads. The aim of the TERMOGLAZE is to realise a thermochromic switchable glazing, that adapts itself to the external climatic condition in order to optimise its behaviour, behaving like a clear surface below the transition temperature: high shading coefficient (i.e. high heat gain due to solar radiation ) and high visible transmittance; and like a spectrally selective surface above transition temperature: low shading coefficient (i.e. low heat gain) and high visible transmittance, hence without loosing too much visibility to the outside. Aim of the TERMOGLAZE project is to develop such an innovative product and an affordable and low cost production process, based on Athmospheric Pressure CVD. Targets of the TERMOGLAZE are: limited change in the visible spectrum but very significant changes in the IR portion above transition temperature: visible transmittance 50-60%, shading coefficient 40%; virtually no change in the visual aspect: colour, visibility; transition temperatures optimised for different climatic conditions in the range 20-35??C; very narrow width of hysteresis around the transition temperature; good mechanical and physical durability of the TC layer, to be realised as a solid state very thin layer (less than 250 nm); low cost investment for installation of equipment; production cost of the TC layer up to 20% of the cost of the underlying window. Source : cordis   Advanced materials and manufacturing technologies for photocatalytically active surfaces PHOTOCOAT 2003 - 2007 Sujets : Transport, Meteorology, Measurement Methods, Legislation, Regulations, Standards, Scientific Research, Policies, Materials Technology, Innovation, Technology Transfer, Industrial Manufacture Type de contrat : Cost-sharing contracts Participants : FRAUNHOFER GESELLSCHAFT ZUR FORDERUNG DER ANGEWANDTEN FORSCHUNG E.V.* DEUTSCHLAND FRAUNHOFER GESELLSCHAFT ZUR FORDERUNG DER ANGEWANDTEN FORSCHUNG E.V.* Research,Other INSTITUT FUER WERKSTOFF- UND STRAHLTECHNIK Winterbergstrasse 28 01277 DEUTSCHLAND SAINT-GOBAIN RECHERCHE S.A. FRANCE SAINT-GOBAIN RECHERCHE S.A. Research QUAI LUCIEN LEFRANC 39 93300 FRANCE THYSSENKRUPP STEEL A.G. DEUTSCHLAND THYSSENKRUPP STEEL A.G. Industry Kaiser Wilhem Strasse 100 47166 DEUTSCHLAND SWISS FEDERAL LABORATORIES FOR MATERIALS TESTING AND RESEARCH SCHWEIZ/SUISSE/SVIZZERA SWISS FEDERAL LABORATORIES FOR MATERIALS TESTING AND RESEARCH Research,Other DEPARTMENT HIGH PERFORMANCE CERAMICS Ueberlandstrasse 129 8600 SCHWEIZ/SUISSE/SVIZZERA UNIVERSITY OF STRATHCLYDE UNITED KINGDOM UNIVERSITY OF STRATHCLYDE Education,Other DEPARTMENT OF PURE AND APPLIED CHEMISTRY Cathedral Street 295 - Thomas Graham Building G1 1XL UNITED KINGDOM UNIVERSITAET DUISBURG-ESSEN DEUTSCHLAND UNIVERSITAET DUISBURG-ESSEN Education Universitaetstrasse 2 45117 DEUTSCHLAND UNIVERSITY OF SALFORD UNITED KINGDOM UNIVERSITY OF SALFORD Education SCHOOL OF SCIENCES THE SOLID STATE CHEMISTRY GROUP Cockcroft Building, Peel Park Campus M5 4WT UNITED KINGDOM DACS DVORAK ADVANCED COATINGS SOLUTIONS SCHWEIZ/SUISSE/SVIZZERA DACS DVORAK ADVANCED COATINGS SOLUTIONS Industry Feuerwerkerstrasse 39 3602 SCHWEIZ/SUISSE/SVIZZERA UNIVERSITY OF WEST BOHEMIA CESKA REPUBLIKA UNIVERSITY OF WEST BOHEMIA Education FACULTY OF APPLIED SCIENCES DEPARTMENT OF PHYSICS P.O. Box 314 Univerzitni 22 30614 CESKA REPUBLIKA PHILIPS FRANCE France PHILIPS FRANCE Industry PHILIPS DIVISION ECLAIRAGE BUSINESS GROUP LUMINAIRES B.P. 313 Rue des Brotteaux 01708 France THYSSENKRUPP STEEL Germany THYSSENKRUPP STEEL Industry Kaiser Wilhem Strasse 100 Germany DACS DVORAK ADVANCED COATINGS SOLUTIONS Switzerland DACS DVORAK ADVANCED COATINGS SOLUTIONS Industry Feuerwerkerstrasse 39 Switzerland GALILEO AVIONICA Italy GALILEO AVIONICA Industry VIA ALBERT EINSTEIN 35 Italy CVD TECHNOLOGIES United Kingdom CVD TECHNOLOGIES Industry Cockroft Building, University of Salford Campus, T M5 4WT United Kingdom Hide objective Semiconductor photocatalytic films open up a variety of "green" technologies with important new applications, e.g. auto-cleaning surfaces, elimination of organic contaminants, anti-bacterial properties, purification of air, photovoltaics, rain shedding - leading to the improvement of quality of life, health and safety. SCP materials and processes have potential to be a major new emerging exploitation technology however, to date, wide application has been hindered by the lack of materials and coating technologies. This proposal targets achieving SPC materials with a higher activity, functionality, durability and sensitivity -plus innovative large volume coating technologies, including nano-technologies. Three application demonstrators will prove their wide potential. The 14 participants from 6 countries will develop the first significant European industrial application of SCP technology in a wide range of industries. Source : cordis