EU SUSTAINABLE ENERGY WEEK 24-28 JUNE 2013 Prof. Anna Osello 25.06.2013 Energy
Summary The SEEMPubS project Objectives The demonstrator Methodology Results End user s awareness The DIMMER project Objectives Future activities 2
Industry and SME Research Center University September 1, 2010 August 31, 2013 The SEEMPubS project Smart Energy Efficient Middleware for Public Spaces Politecnico di Torino Katolieke Universiteit Leuven Universitè Claude Bernard Lyon 1 Centro Ricerche Fiat Fraunhofer FIT Istituto Superiore Mario Boella ST Microelectronics CNEt Svenska AB Sinovia SA ENI Servizi Belgium France Germany Sweden France 3
Objectives SEEMPubS addresses energy and CO 2 footprint reduction in existing public buildings and spaces without significant constructions works, by an intelligent ICT-based service monitoring and managing energy consumption. 4
Objectives To develop an integrated electronic system and interoperable web-based software solution for realtime energy performance monitoring and control of lighting, heating, ventilation and air conditioning services through wireless sensor networks in existing buildings and open public spaces. Significantly increase people s awareness for energy efficiency in public spaces basing on the management philosophy of the integrated facility. The system provides multidimensional visualization of parameters of building operations and data sharing from energy-consuming equipment and appliances. 5
The demonstrator The campus of Politecnico di Torino has been selected as demonstrator Main Campus and Cittadella Politecnica Valentino Castle 6
STEP STEP Methodology 1 BIM Key words: Survey Building information model - Interoperability STEP STEP 2 3 4 BEMS BAS Results VR and AR Key words: HVAC and lighting control strategies Occupancy proxy Key words: Middleware Wireless Sensor Network Rule Engine Key words: Data visualization Awareness 7
STEP Methodology 1 BIM Six representative Rooms (Test Rooms) were selected within the demonstrator and for each of them a new BMS is designed based on a specific sensor network infrastructure. Similarly, six twin Rooms (Reference Rooms) were selected to compare all data during the research period. HVAC and lighting model Architectural model Revit Architecture fbx 3ds Max Ecotect Daysim Radiance Energy simulations with BIM methodology based on interoperability is an essential part of the SEEMPubS project. 8
STEP Methodology 2 BEMS 9
STEP Methodology 3 BAS The control system architecture based on the LinkSmart middleware is under implementation. 10
STEP Results 4 VR and AR 11
End user s awareness SEEMPubSdicE http://seempubs.polito.it - game ToBeSmart 12
The DIMMER project District Information Modeling for Energy Reduction University Research Center Industry and SME Politecnico di Torino University of Manchester Università di Torino CSI Fraunhofer FIT Istituto Superiore Mario Boella ST Polito CNEt Svenska AB D Appolonia Iren Energia Click and Link Arup UK Germany Sweden Other Greater Manchester Combined Authority UK UK UK 13
Objectives In the DIMMER project a web-service oriented, open platform with capabilities of real-time district level data processing and visualization will be developed. Thanks to the web-service interface, applications may be developed exploiting such an interface to monitor and control energy consumption and production from renewable sources. 14
Objectives In the DIMMER project, the following technologies will be developed: Real-time data collection. Advanced middleware technology for data integration. Simulation and virtual visualization. User/social profiling, visualization and feedback. Energy efficiency and cost analysis engine. Web interface and interaction. 15
Future activities from BIM to DIM energy saving QR Code - VandAR 16
Contact anna.osello@polito.it Thank you for your attention 17