ENERGY-IN-TIME : Différence entre versions
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{{Infobox sémantique projet européen | {{Infobox sémantique projet européen | ||
| Acronyme=ENERGY-IN-TIME | | Acronyme=ENERGY-IN-TIME | ||
− | | Titre= | + | | Titre=Simulation based control for Energy Efficiency building operation and maintenance |
| Logo= | | Logo= | ||
− | | Budget= | + | | Budget=7 691 |
| Programme européen de financement=FP7 | | Programme européen de financement=FP7 | ||
| Sous-programme FP7=NMP | | Sous-programme FP7=NMP | ||
− | | Sous-programme= | + | | Sous-programme=FP7-2013-NMP-ENV-EeB |
− | | Type de contrat= | + | | Type de contrat=CP-IP - Large-scale integrating project |
− | | Subvention européenne= | + | | Subvention européenne=5 100 |
− | | Début=01-10- | + | | Début=01-10-2013{{!}}1<sup>er</sup> octobre 2013 |
− | | Fin=30-09- | + | | Fin=30-09-2017{{!}}30 septembre 2017 |
| Site= | | Site= | ||
}} | }} | ||
__NOTOC__ | __NOTOC__ | ||
− | + | '''ENERGY IN TIME''' est l'acronyme du projet européen '''''Simulation based control for Energy Efficiency building operation and maintenance''''', qui a pour référence sur le service [[wicri.fr:CORDIS|CORDIS]] 608981<ref>La [https://cordis.europa.eu/project/rcn/108953_en.html fiche du projet] sur CORDIS</ref>. | |
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− | '''ENERGY | ||
{{boîte déroulante | {{boîte déroulante | ||
Ligne 26 : | Ligne 24 : | ||
;Objective | ;Objective | ||
+ | Buildings Operational stage represents 80% of building’s life-cycle cost of which 50% is consequence of the energy use. Up to 90% of the buildings’ life cycle carbon emissions occur during their operational phase, mainly as consequence of the HVAC, lighting and appliances’ energy use. Therefore, energy and cost saving strategies addressing this building operation phase will have a major impact in the building life cycle cost. | ||
+ | |||
+ | Energy IN TIME (EiT) project goes beyond existing building control techniques, developing an integrated control & operation approach, that will combine state of the art modelling techniques with the development of an innovative simulation-based control technique with the overarching objective of automating the generation of optimal operational plans tailored to the actual building and users requirements. This approach will allow reducing system inefficiencies and contributing to improve building energy efficiency and comfort. | ||
+ | |||
+ | The target for Energy IN TIME solution will be existing non-residential buildings, which present the building typologies that guaranties higher impact and room for improvement due to the variety and quantity of facilities and equipment covered and the operational management model used in them. A control tool will be implemented in the building energy management systems to be automatically and remotely operated. The methodology for the enhancing solution implementation will be defined for existing buildings and for its implementation in new buildings since its initial commissioning. | ||
+ | The Energy IN TIME project work plan is divided into nine work packages: WP1: Requirements & System Architecture; WP2: Simulation Reference Model; WP3: Whole building Intelligent Control System.; WP4: Diagnosis & Continuous Commissioning; WP5: Energy Decision Support Tool. ; WP6: System Integration & Pilot-Scale Validation.; WP7: Demonstration to implement the designed and developed systems; WP8: Dissemination & exploitation; WP9 Coordination. | ||
}} | }} | ||
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===Coordinateur du projet=== | ===Coordinateur du projet=== | ||
− | * | + | *Acciona Construccion SA - Alcobendas ([[A pour pays coordinateur de projet européen::Espagne| ]][[A pour pays partenaire de projet européen::Espagne]]) |
===Partenaires=== | ===Partenaires=== | ||
Ligne 38 : | Ligne 42 : | ||
==Financement== | ==Financement== | ||
− | * Coût total du projet : | + | * Coût total du projet : 7 691 454,80 € |
− | * Subvention de la Commission européenne (programme FP7-NMP) : | + | * Subvention de la Commission européenne (programme FP7-NMP) : 5 099 973 € |
==Dates importantes== | ==Dates importantes== | ||
− | * Date de début : 1<sup>er</sup> | + | * Date de début : 1<sup>er</sup> octobre [[Année de tri::2013]] |
− | * Date de fin : 30 | + | * Date de fin : 30 septembre 2017 |
==Notes== | ==Notes== |
Version actuelle datée du 2 mars 2018 à 17:04
ENERGY-IN-TIME | |
Titre : | Simulation based control for Energy Efficiency building operation and maintenance |
Budget : | 7 691 k€ |
Subventions : | FP7-NMP (5 100 k€) |
Sous-programme : | FP7-2013-NMP-ENV-EeB |
Type de contrat : | CP-IP - Large-scale integrating project |
Début : | 1er octobre 2013 |
Fin : | 30 septembre 2017 |
ENERGY IN TIME est l'acronyme du projet européen Simulation based control for Energy Efficiency building operation and maintenance, qui a pour référence sur le service CORDIS 608981[1].
Note : Les objectifs suivants sont repris de la fiche du projet sur Cordis
- Objective
Buildings Operational stage represents 80% of building’s life-cycle cost of which 50% is consequence of the energy use. Up to 90% of the buildings’ life cycle carbon emissions occur during their operational phase, mainly as consequence of the HVAC, lighting and appliances’ energy use. Therefore, energy and cost saving strategies addressing this building operation phase will have a major impact in the building life cycle cost.
Energy IN TIME (EiT) project goes beyond existing building control techniques, developing an integrated control & operation approach, that will combine state of the art modelling techniques with the development of an innovative simulation-based control technique with the overarching objective of automating the generation of optimal operational plans tailored to the actual building and users requirements. This approach will allow reducing system inefficiencies and contributing to improve building energy efficiency and comfort.
The target for Energy IN TIME solution will be existing non-residential buildings, which present the building typologies that guaranties higher impact and room for improvement due to the variety and quantity of facilities and equipment covered and the operational management model used in them. A control tool will be implemented in the building energy management systems to be automatically and remotely operated. The methodology for the enhancing solution implementation will be defined for existing buildings and for its implementation in new buildings since its initial commissioning.
The Energy IN TIME project work plan is divided into nine work packages: WP1: Requirements & System Architecture; WP2: Simulation Reference Model; WP3: Whole building Intelligent Control System.; WP4: Diagnosis & Continuous Commissioning; WP5: Energy Decision Support Tool. ; WP6: System Integration & Pilot-Scale Validation.; WP7: Demonstration to implement the designed and developed systems; WP8: Dissemination & exploitation; WP9 Coordination.Les partenaires du projet
Coordinateur du projet
- Acciona Construccion SA - Alcobendas (Espagne)
Partenaires
- Centre de recherche en automatique de Nancy - Nancy (Lorraine, France)
Financement
- Coût total du projet : 7 691 454,80 €
- Subvention de la Commission européenne (programme FP7-NMP) : 5 099 973 €
Dates importantes
- Date de début : 1er octobre 2013
- Date de fin : 30 septembre 2017
Notes
- ↑ La fiche du projet sur CORDIS