Eyser Estudios y Servicios
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157,Paseo do la Castillana
28046 Madrid
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Profil scientifique partiel |
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Quelques documents de Eyser Estudios y Servicios
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Components for use in renewable energy systems
Sujets :
Renewable Sources of Energy, Construction Technology
Type de contrat :
Cost-sharing contracts
Participants :
Electricité de France FRANCE
Electricité de France
Service Immobilier - Direction des Affaires Générales 44,Rue de Lisbonne 75384 FRANCE
Commissariat à l'Energie Atomique FRANCE
Commissariat à l'Energie Atomique
Direction des Réacteurs Nucléaires - Département d'Etudes des Réacteurs Services de Systèmes d'Aide à l'Exploitation - Laboratoire de Valorisation Téchnique SSAE/LVT Ctr Etudes de Cadarache - CE-Ca 13108 FRANCE
Eyser Estudios y Servicios SA ESPAÑA
Eyser Estudios y Servicios SA
157,Paseo do la Castillana 28046 ESPAÑA
Sollac Société Lorraine de LaminageContinu France
Sollac Société Lorraine de LaminageContinu
Centre d'Etude et de Développement BP 30 109 1,Route de Saint Leu 60761 France
Sir Norman Foster and Partners United Kingdom
Sir Norman Foster and Partners
22 Hester Road Riverside Three SW11 4AN United Kingdom
Objectives The project aims at designing, modelling and testing facade and ceiling components to be used for construction or retrofitting of office buildings with good appearance and durability qualities. They must also be able to be produced in industrial scale at minimum cost and provide comfort with significant reduction of energy consumption. Technical Approach The project involves the combination of passive components such as fixed sunscreens (which act as barriers for solar energy) or diffusing reflectors, and of active components such as panels or window glazing absorbing the solar radiation and providing heat drawn off from the facade to power a chiller, and chilled ceilings used to control the inside temperature. As the facade of a current office building is widely open to the visible and infrared sun radiation, it is important to design functional screens which do not cause glare problems but can reflect or dissipate part of the solar energy. These sunscreens will be designed as open core composite panels in order to optimize the different modes of heat dissipation such as reflexion, absorption, radiation and convection. A complementary active system will also be designed in order to absorb another part of this solar radiation by means of a fluidized glazing in order to provide the power source for an absorption cooler delivering a sufficient amount of chilled fluid. The cooling exchange will take place by means of chilled ceilings which will include: high reflectivity light diffusing elements for visual comfort in the office structure, infrared energy absorbing elements acting as cooling surfaces. Expected Achievements and Exploitation The outputs of the project will be: a complete model describing the performances of the system in connection with the characteristics of the individual components in insulation, transmissivity, emissivity, energy storage, .... the selection of the different components of the passive and active parts, of their assembling and shape, an experimental testing done at research level and at manufacture level on PASSYS cells (at real scale and under natural sun exposure) A further development is expected to be the full scale construction of a new office building (or the retrofitting of an existing building), using existing pilot production facilities. After this final validation step the technology will be proposed on a licensing basis.
Source :
cordis
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