BaaS Project Deliverables
The achievements of the BaaS project are illustrated in deliverables and reports that gather the specific information related to the task. The following list contains the public deliverables which are shared with all the Community.
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Definition of Theoretical Case Studies including key performance indicators
Leader: CARTIF
Participants: Dalkia, Fraunhofer, TUC, Honeywell, NEC
Due: December 31, 2012 (Month 8)
Work Package: WP1 - Theoretical Case Studies and End-user Acceptance
Summary: In this document, can be found the needed information that will be used as start point to develop other tasks within BaaS Project. They have been defined the required data for each building, the KPIs, the identified problems for each theoretical case studies within non-residential building sector and the requirements that BaaS System needs to solve these problems.
Appendix: Building data and Requirements
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Energy Saving Measurement and Verification Methodology to evaluate the BaaS solution
Leader: CARTIF
Due: April 30, 2013
Work Package: WP1 - Theoretical Case Studies and End-user Acceptance
Summary: This deliverable presents a comparative overview of the main measurement and verification protocols available on the market. The purpose of this document is to identify the protocol best suited to be a reference for BaaS projects.
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End-user acceptance
Leader: Dalkia
Participants: CARTIF
Due: April 30, 2016 (Month 48)
Work Package: WP1 - Theoretical Case Studies and End-user Acceptance
Summary: This document contains the specification and installation process about the implementation of the BaaS ECM in building demonstrators.
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BIM repository and associated methods and tools
Leader: CARTIF
Participants: TUC, NEC
Due: October 30, 2013 (Month 18)
Work Package: WP2 - Building data - Interoperability and standardization
Summary: BaaS Deliverable 2.3 presents the background, methodologies and technical guidelines to deploy an IFC4-based Server containing all the information of each all of the buildings involved in the project, as well as the corresponding clients aimed at connecting to those servers and interchange the building information stored according to the IFC4 data model (ISO 16739:2013).
Appendix: BIM Server prototype
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Development guide
Leader: CARTIF
Participants: NEC, UCC, HON
Due: October 30, 2013 (Month 18)
Work Package: WP3 - Middleware platform
Summary: The BaaS system is a complex system composed of several entities interworking together in order to offer comprehensive and integrated energy management services. In this document, the technologies and methodologies for the development of the platform are specified, forming the basis for the implementation of the BaaS system. Moreover, the installation of the system should follow the guidelines specified in the deliverable so as to be able to replicate the deployment in other environments, e.g. if an Energy Service Company would like to deploy the system to additional buildings as well. Moreover, as each building is unique in terms of the BMS, the available ICT systems, or other parameters, this development guide includes guidelines for the flexible adaptation of the BaaS system to different BMS protocols, DWH vendors or external data services.
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Simulation and modelling tools available for the model Software
Leader: Fraunhofer
Participants: CARTIF, TUC, HON
Due: January 13, 2014 (Month 21)
Work Package: WP4 - Building Energy Modelling and Simulation for Performance Estimation and Control
Summary: The aim of this deliverable is to define a landscape and requirements from modelling services. It sets the foundation for supportive APO services which are consumed by other APO services delivering insights to BaaS users.
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Model simplification for control and monitoring
Leader: HON
Participants: CARTIF, TUC, Fraunhofer
Due: March 6, 2015 (Month 34)
Work Package: WP4 - Building Energy Modelling and Simulation for Performance Estimation and Control
Summary: This deliverable addresses the simplification of building models in order to provide faster simulations with sufficient accuracy. The simplified models can be created either in (i) deductive way where the models are simplified in terms of available expert knowledge, or (ii) inductive way where the models are created by learning from the simulated data. Both approaches have been compared to the full-scale simulation models and their accuracy as well as speed has been verified. It is also discussed how the considered models are implemented and integrated within the BaaS platform.
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Identification and definition of BaaS demonstration buildings
Leader: CARTIF
Participants: Dalkia, Fraunhofer, TUC
Due: April 30, 2013 (Month 12)
Work Package: WP6 - Demonstration of the BaaS system
Summary: This document selects and describes the Demonstration Buildings in which BaaS System will be implemented and validated. The five selected buildings cover three different typologies: offices, hotel and educational building. The description of each of these buildings is included as one appendix at the end of this document.
Appendix: ZUB , TUC , CARTIF , HUSA and Sierra Elvira
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Plan of Implementation Measure and Verification methodology in pilot buildings
Leader: Dalkia
Participants: CARTIF, Fraunhofer
Due: June 30, 2014 (Month 26)
Work Package: WP6 - Demonstration of the BaaS system
Summary: This document contains the Plan of implementation of the methodology measure and verification in BaaS building demonstrators.
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Baseline period in pilot buildings
Leader: Dalkia
Participants: CARTIF, Fraunhofer
Due: February 9, 2016 (Month 46)
Work Package: WP6 - Demonstration of the BaaS system
Summary: This document contains the study and definition of the baseline period for the three pilot buildings and the analysis of the gathered data aimed to develop accurate and applicable mathematical models to explain the energy consumption with some independent variables such as the outdoor temperature and the solar radiation. Once these energy models are adjusted and validated with real data, they will be used to assess the energy savings achieved with the ECM associated to the deployment of BaaS solution, following the guidelines defined in the IPMVP.
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Reporting period in pilot buildings
Leader: Dalkia
Participants: CARTIF, TUC, Fraunhofer
Due: April 28, 2016 (Month 48)
Work Package: WP6 - Demonstration of the BaaS system
Summary: This document contains the description of the reporting period and the evaluation of the energy savings achieved in the three pilot buildings with the implementation of BaaS solution, applying the energy models that were adjusted and validated in D6.3.2 following the guidelines defined in the IPMVP-Option C.
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Deployment of BaaS ECM in pilot buildings
Leader: Dalkia
Participants: CARTIF, TUC, Fraunhofer, HON, NEC, UCC
Due: April 29, 2016 (Month 48)
Work Package: WP6 - Demonstration of the BaaS system
Summary: This document contains the specification and installation process about the implementation of the BaaS ECM in building demonstrators.
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Communication tools
Leader: HON, CARTIF
Participants: UCC, TUC
Due: April 30, 2016 (Month 48)
Work Package: WP7 - Exploitation, dissemination, standardization
Summary: This document describes the plan for the BaaS project outputs dissemination.