intelligent Building Energy Assets Control for Comfort, Energy and Flexibility Optimisation

Informations projet

iBECOME

N° de convention de subvention: 894617

Site Web du projet

DOI

10.3030/894617

Projet clôturé

Date de signature de la CE 12 Mai 2020

Date de début 1 Juin 2020

Date de fin 31 Mai 2024

Financé au titre de

SOCIETAL CHALLENGES - Secure, clean and efficient energy

Coût total

€ 4 920 941,24

Contribution de l’UE

€ 3 724 497,00

3 724 497,00

1 196 444,24

Coordonné par

IES R&D
Ireland

CORDIS fournit des liens vers les livrables publics et les publications des projets HORIZON.

Les liens vers les livrables et les publications des projets du 7e PC, ainsi que les liens vers certains types de résultats spécifiques tels que les jeux de données et les logiciels, sont récupérés dynamiquement sur OpenAIRE .

Livrables

Open Research Data Pilot Deposit

Deposit selected datasets from the iBECOME output in the research data repository

Review and analysis of market conditions

Analysis of the relevant market structures potential and competition in the field of virtual BMS offered in the form of SaaS The analysis will differentiate between the different services energy comfort and flexibility optimisation FDD MV other nonenergy services customer segments AEC ESCO FM CRE business models SaaS EaaS B2C B2B B2B2C and fields of applications retrofits intelligent buildings B2G The European market will be analysed in terms of size maturity and potential

D7.3 Training Planning and Activities Report 1st Draft

Report on the training activities undertaken to inform and educate the (i) beneficiaries (occupants, employees, owners, tenants) in the demo sites of the iBECOME vBMS capabilities and expected impact and of its interfaces and how-to-use; (ii) iBECOME partners in the use of the iBECOME vBMS especially during the demonstration of its piloting operation in the four sites and (iii) the external stakeholders.

D7.1 Communication and dissemination plan 2nd draft

Collection of all dissemination activities, impact conclusions and the plan for further dissemination and communication beyond the project life.

Methodology for determination of virtual sensors for comfort

Determination of metrics that better describe and characterise thermal and visual comfort and IAQ conditions and description of a methodology based on Machine Learning techniques to easily calculate them through proxy variables either monitored onsite physical sensors or derived from dynamic building simulations output virtual sensors

iBECOME vBMS user manual

A detailed users manual explaining how to install and use the iBECOME vBMS.

Technoeconomic feasibility of services and business model validation (retrofits)

Results from the calculation of all the KPIs for the effectiveness of the several services demonstrated in the French and Italian demos (significantly renovated buildings) and subsequent validation of the enhanced EPC iBECOME business model.

Communication and dissemination plan

Collection of all dissemination activities, impact conclusions and the plan for further dissemination and communication beyond the project life.

Sustainability Plan and Roadmap beyond the project end

A detailed plan describing appropriate arrangements to ensure the long-lasting impact anticipated by the partners. The sustainability plan will address the full commercialisation phase of the iBECOME vBMS and it will provide guidelines and an outline of activities for its further penetration and rollout in the market.

Stakeholders' contractual agreement and EPCs templates

Description of the working arrangement between the stakeholders involved in the provision of services through the iBECOME vBMS including contractual collaboration template stipulating their common line of action, their roles and responsibilities implementing the iBECOME vBMS and the subsequent services and their reimbursement sharing from the achievement of performance improvement and operational cost savings. Additionally, the agile and enhanced EPC templates will be described and detailed that will support easy access to financing and will provide the legal basis for the collaboration between all the involved stakeholders (ESCOs and AEC companies, aggregators, building owners and tenants, FM and CRE companies, financial institutions, hardware and software vendors) and determine how they will interact.

Technoeconomic feasibility of services and business model validation (operational efficiency)

Results from the calculation of all the KPIs for the effectiveness of the several services demonstrated in the Irish and Scottish demos (trialling operational efficiency only) and subsequent validation of the agile EPC iBECOME business model.

Software and hardware architecture for bidirectional integration of vBMS

Specification of the iBECOME vBMS software and hardware and cloud architecture to achieve bidirectional integration twoway communication and interoperability with onsite BMS and IoT sensors and controllers

Automation of dynamic building simulation model calibration and ROM generation

Description of the processes for automating both the calibration of dynamic building simulation models and the generation of Reduced Order Models of buildings from the calibrated ones

Features, bankability and viability of business model

Details on the iBECOME innovative business models including (i) strategic agreements for business development and key partners; (ii) key activities to be carried out and consequent internal structure; (iii) key skills for the development of the activities; (iv) key resources and their costing; (v) value proposition paying particular attention to the relation with the customers and to the product development; (vi) ways of intervention on the market.The bankability and sustainability analysis will include (i) a review of the existing value chain, including directly and indirectly connected stakeholders; (ii) the identification of all relevant solution providers; (iii) an analysis and assessment of all the financing options and of the monetization of the innovations value (expressed in Return on Investment) for all stakeholders in the value chain; (iv) risk analysis considering revenues, additional costs for equipment, running costs for maintenance and support and transaction costs (e.g. for participation in demand response markets); (v) feasibility studies for all building types and all countries for real, but also for best (good) and worst (bad) case conditions.

D7.1 Communication and dissemination plan 1st draft

Collection of all dissemination activities impact conclusions and the plan for further dissemination and communication beyond the project life

Review of regulatory framework

Description of the regulatory framework including laws regulations codes standard Addressment of all issues relating to data privacy and cybersecurity legislation and best practice

Training Planning and Activities Report

Methodology for determination of virtual sensors and meters for flexibility

Determination of metrics that better describe and characterise flexibility and its controllability and predictability features and description of a methodology based on Machine Learning techniques to easily calculate them through proxy variables either monitored onsite physical sensors or derived from dynamic building simulations output virtual sensors

iBECOME Branding, Website and Social Media

Brand logo and identity of the iBECOME project in its Web and Social Media presence

D7.4 1st Training Video

A first training video on the integration and interconnectivity of the iBECOME vBMS with on-site equipment and with 3rd party platforms and a second video on the core iBECOME vBMS services.

Training Videos

A first training video on the integration and interconnectivity of the iBECOME vBMS with on-site equipment and with 3rd party platforms and a second video on the core iBECOME vBMS services.

iBECOME vBMS demos (operational efficiency)

A live demonstration of the iBECOME vBMS as it is being operated in the two premises (Irish and Scottish demo) where operational efficiency is to be achieved.

Publications

D7.8 – D7.1 iBECOME Communication and Dissemination Plan

Auteurs: Kelly, Louise; McCormack, David; Power, Mark
Publié dans: Numéro 14, 2021
Éditeur: Zenodo
DOI: 10.5281/zenodo.10473298

D1.1 - Methodology for determination of virtual sensors for comfort

Auteurs: Naughton, Kate; Bernaud, Pierre; Tardioli, Diego
Publié dans: Numéro 4, 2021
Éditeur: Zenodo
DOI: 10.5281/zenodo.10473586

iBECOME Poster

Auteurs: Ntimos, Dimitrios; Power, Mark
Publié dans: Numéro 3, 2022
Éditeur: Zenodo
DOI: 10.5281/zenodo.5906155

D7.2 iBECOME Branding, Website and Social Media

Auteurs: Ntimos, Dimitrios; Kelly, Louise; Stano, Michele
Publié dans: Numéro 15, 2020
Éditeur: Zenodo
DOI: 10.5281/zenodo.10473515

D6.2 – Review of regulatory framework

Auteurs: Bernaud, Pierre; Di Gallo, Martina; Cinquin-Lapierre, Benjamin
Publié dans: Numéro 6, 2021
Éditeur: Zenodo
DOI: 10.5281/zenodo.10473426

D6.1 – Review and analysis of market conditions

Auteurs: Rattazi, Diego; Ardizzone, Edoardo; Di Gallo, Martina; Buffa, Simone; Cinquin-Lapierre, Benjamin; Flanagan, Robert; Mangili, Stefano
Publié dans: Numéro 9, 2021
Éditeur: Zenodo
DOI: 10.5281/zenodo.10473360

D2.2 – Automation of dynamic building simulation model calibration and ROM generation

Auteurs: Naughton, Kate; Regnier, Antoine
Publié dans: Numéro 2, 2021
Éditeur: Zenodo
DOI: 10.5281/zenodo.10473313

D2.1 – Software and Hardware Architecture for Bidirectional Integration of vBMS

Auteurs: Dino Di Gregorio, Enzo; Martinelli, Francesco; Ntimos, Dimitrios; Zhang, Jason
Publié dans: Numéro 1, 2021
Éditeur: Zenodo
DOI: 10.5281/zenodo.10473447

D1.2 - Methodology for determination of virtual sensors and meters for flexibility

Auteurs: Naughton, Kate; Flanagan, Robert; Conquin Cabrera, Adalberto
Publié dans: Numéro 1, 2021
Éditeur: Zenodo
DOI: 10.5281/zenodo.10471278

D7.10 – D7.3 Training Planning and Activities Report 1st Draft

Auteurs: Fabien Seychelles, Dimitrios Ntimos,
Publié dans: 2022
Éditeur: iBECOME
DOI: 10.5281/zenodo.12600904

D7.9 - D7.1iBECOME Communication and Dissemination Plan-2nd Draft

Auteurs: Louise Kelly, Mark Power
Publié dans: 2022
Éditeur: iBECOME
DOI: 10.5281/zenodo.12600801

Using CO2 Concentration level and Motion IoT Sensors to Generate Internal Gains Profiles and Use Them in Buildings Energy Modelling to Create Physics-Based Digital Twins

Auteurs: Khalid Hassan, Integrated Environmental Solutions Dimitris Ntimos, Integrated Environmental Solutions
Publié dans: CIBSE Technical Symposium 2023, 2023
Éditeur: CIBSE Technical Symposium
DOI: 10.13140/rg.2.2.35237.68327

Efficiency and Comfort in IoT-Controlled HVAC: Exploring Flexible Setpoints for Infrequent Office Occupancy

Auteurs: Khalid Hassan, Dimitrios Ntimos,
Publié dans: CIBSE Technical Symposium 2024, 2024
Éditeur: ResearchGate
DOI: 10.5281/zenodo.12600990

An Innovative Modelling Approach Based on Building Physics and Machine Learning for the Prediction of Indoor Thermal Comfort in an Office Building

Auteurs: Giovanni Tardioli; Ricardo Filho; Pierre Bernaud; Dimitrios Ntimos
Publié dans: Environmanetal Sciences Proceedings, 2021, Page(s) 25
Éditeur: MDPI
DOI: 10.3390/environsciproc2021011025

An Innovative Modelling Approach Based on Building Physics and Machine Learning for the Prediction of Indoor Thermal Comfort in an Office Building

Auteurs: Giovanni Tardioli, Ricardo Filho, Pierre Bernaud, Dimitrios Ntimos,
Publié dans: Buildings: 10th Anniversary, Numéro 12, no. 4 Buildings: 10th Anniversary, 2022, Page(s) 475, ISSN 2075-5309
Éditeur: MDPI Buildings
DOI: 10.3390/buildings12040475

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