CORDIS provides links to public deliverables and publications of HORIZON projects.
Links to deliverables and publications from FP7 projects, as well as links to some specific result types such as dataset and software, are dynamically retrieved from OpenAIRE .
Deliverables
As for D9.1: To collect, analyse, & disseminate demonstrated innovations across WPs 2-8 (intra-project & externally), collated into an annual ARV Innovation Intel for Impact (AI3) report. In addition, T9.1 will facilitate knowledge exchange with the ARV Exploitation Board to ensure early identification & scaling of commercially viable innovations.
Archetype building models (opens in new window)Identification of models for energy efficient management of buildings and districts. Models for indoor climate, state estimation, and virtual (software) sensors. Models with integrated HVAC and battery characteristics. APP- and WEB-based interactions with the occupants. Models for PV integration and integration with local meteorological stations. Models with integrated short-term weather forecasts (including sky imagers). This task will be based on information on storage systems WP6. Archetype building models
Streamlined LCA-LCCA comparing alternative solutions & scenarios (opens in new window)an integrated streamlined LCA-LCC assessment model will be developed, with a cradle-to-cradle perspective, specifically oriented to inform and support the design of solutions for the ARV demos
Guidelines on descriptions of smartness and flexibility (opens in new window)Methodologies for operational description of flexibility based on the operational data of the demo projects, task evaluates the Flexibility Index (FI) and the Smart Readiness Indicator (SRI). This is tailored and designed for optimized local flexibility for the climate zones related to the six demo projects and implemented through the central ARV Cloud Hub.
Manufacturing configurator for high-rise apartment buildings to directly start production (File2Factory) process partly validated in participating European demo countries. (opens in new window)A configurator tool. The aim is to reduce the overall cost by 30%, the CO2 emissions, and the nuisance for occupants substantially.
Monitoring, evaluation and impact assessment frameworks (opens in new window)guidelines for the monitoring systems in the six ARV demos. Specifically, it will establish a common data monitoring framework and quality requirements for the specific monitoring systems, which will be tailor made according to needs of each demo. Deliverable should be seen in context opf D2.1
Design business model blueprints for energy positive retrofits for different asset classes as modules for replication across the EU. (opens in new window)As for D9.1: To collect, analyse, & disseminate demonstrated innovations across WPs 2-8 (intra-project & externally), collated into an annual ARV Innovation Intel for Impact (AI3) report. In addition, T9.1 will facilitate knowledge exchange with the ARV Exploitation Board to ensure early identification & scaling of commercially viable innovations.
Assessment framework for CPCC (opens in new window)assessment framework will be defined considering the multidimensional perspective to characterize the impact of CPCC. The main categories that will be considered in the CPCC framework are energy, environment, economy, well-being, social aspects, smartness and circularity, addressing aspects at both building and neighbourhood level.
Guidelines on climate zone related design principles (opens in new window)Guideline on climate related design principles, based on the operational data of the demo projects, task evaluates the Flexibility Index (FI) and the Smart Readiness Indicator (SRI). This is tailored and designed for optimized local flexibility for the climate zones related to the six demo projects and implemented through the central ARV Cloud Hub. Methodologies for operational description of flexibility (D7.6).
Guidelines for integrated design and implementation of RESs and ESSs for building/neighbourhood's energy needs in Sønderborg (opens in new window)The deliverables brings together the contribution of ARV demo-sites that aim to implement innovative renewable energy & storage solutions. Each demo case will report separately as Guidelines for integrated design and implementation of RESs and ESSs for building/neighbourhood’s energy needs
To ensure a common visual identity for the project, a corporate visual identity package will be developed, including a project logo, templates for presentations and newsletters and as a website eye-catcher. Due consideration to the Graphical Guidelines of the European Commission will be given
A physical space (HUB) and focus on new solutions regarding energy transition and circularity (storage, electrical vehicles, renewables, reuse, etc.), testing and iteration of innovative and prototype solutions, as well as on energy coaching of occupants
Design Building-linked financing instruments for FI adoption in re-estate portfolios (opens in new window)A mapping conducted via interviews and web search. Additionally, regulatory and policy instruments at the EU level will be integrated into the mapping, including the Blockchain Observatory, SET PLAN Action 3.2, Clean Energy for All Europeans, and the Renovation Wave
Plan and overall methodology design for establishing CPCC Living Labs, including stakeholder mapping (opens in new window)Plan for overall methodology for CPCC Living Labs focusing on social renovation and energy transition. the methods and tools open, flexible, and diverse but with a clear focus on actions for enhancing the local user/citizen engagement, awareness raising and learning. Methods and tools relevant for the development of the overall methodology
Demos of Virtual Reality Environments (opens in new window)integrate and use a diversity of 3D and/or visualization techniques of Virtual Reality (VR) and/or Augmented Reality (AR) for the results use cases in Task 2.3 and Task 2.4. The aim is to better communicate results of different scenarios analysis to different types of stakeholders and facilitate citizen engagement
"""•A bi-annual e-Newsletter providing information on project progress and results, links to press and news releases, articles and interviews. The newsletter will in turn address different stakeholder groups e.g.: a) stakeholders in construction value chain b) housing providers, property owners and occupiers and c) local authorities. This will allow for a differentiation between groups adapting the knowledge transfer channels. •Information on the project will also be provided by a project leaflet produced in English and in all languages in the consortium to guarantee a wider geographical coverage. •1 A0 poster and 1 roll-up poster will be produced to be displayed during workshops, fairs and conferences. 1 infographic (M36) will summarize the main objectives and solutions implemented in the 6 CPCC LLs. Relevant project partners will be responsible for the translations of the above-described material.•A subtitled video for the 6 CPCC demos will present the local context and the solutions developed by ARV project, as well as the feasibility, reliability and replicability of the solutions proposed. The video will show the interactions of the activities around the demos with the local community. It will be shared widely on the website and the relevant social network channels, supporting the sustainability of the project results beyond the project’s lifetime.•The key deliverables of the project will be presented briefly in short video recordings representing the relevant partners, summarizing their reports. These videos will be uploaded on the project’s YouTube channel and website and will be widely promoted through the project’s Social Media. Additionally, informational factsheets illustrating project progress and published deliverables will be developed regularly to be distributed to the relevant target groups. Based on the informational factsheets, a project result booklet containing description of all the results achieved in ARV will be produced with the contributions of all partners involved in the 6 CPCC demos.""Several sub-deliverables. M6 & M30 (Leaflet)M9 (Posters)M18 (Video)M36 (Infographic)"
Publications
Author(s):
Binda, Tiziana¹; Bottero, Marta¹; Bisello, Adriano²
1 Interuniversity Department of Regional and Urban Studies and Planning, Politecnico di Torino, Viale Mattioli 39, 10125 Turin, Italy
2 EURAC Research, Viale Druso, 1, 39100 Bolzano, Italy
Published in:
New Metropolitan Perspectives, 2022, Page(s) pp 1762–1770, ISBN 978-3-031-06825-6
Publisher:
Springer Cham
DOI:
10.1007/978-3-031-06825-6_170
Author(s):
Alba Ramos, Joaquim Romaní, Jaume Salom
Published in:
Energy Reports, Issue 10, 2024, Page(s) 3197-3210, ISSN 2352-4847
Publisher:
Energy Reports - Elsevier
DOI:
10.1016/j.egyr.2023.09.178
Author(s):
Irene Bertolami, Adriano Bisello, Marco Volpatti, Marta Carla Bottero
Published in:
Energies, Issue 17, 2024, Page(s) 2862, ISSN 1996-1073
Publisher:
Multidisciplinary Digital Publishing Institute (MDPI)
DOI:
10.3390/en17122862
Author(s):
Jan Eric Thorsen, Oddgeir Gudmundsson, Michele Tunzi, Torben Esbensen
Published in:
Energy, Issue 293, 2024, Page(s) 130750, ISSN 0360-5442
Publisher:
Pergamon Press Ltd.
DOI:
10.1016/j.energy.2024.130750
Author(s):
Zaniboni Luca; Albatici Rossano
Published in:
Buildings, Issue 1, 2022, ISSN 2075-5309
Publisher:
MDPI
DOI:
10.3390/buildings12111983
Author(s):
Simone De Feudis, Alessandra Insana, Marco Barla
Published in:
Symposium on Energy Geotechnics 2023, 2023, ISSN 2950-4104
Publisher:
Symposium on Energy Geotechnics - Accelerating the energy transition
DOI:
10.59490/seg.2023.533
Author(s):
Claudia Moscoso, Roya Morad, Andreas Oksvold, Olav Dimmen, Jo Skjermo, Kristoffer Tangrand
Published in:
Computers in Human Behavior Reports, Issue 16, 2024, Page(s) 100498, ISSN 2451-9588
Publisher:
ELSEVIER Publication
DOI:
10.1016/j.chbr.2024.100498
Author(s):
Rongling Li
Published in:
ilding and Environment 223 (2022) 109461, Issue 1, 2022, ISSN 1873-684X
Publisher:
Elsevier BV
DOI:
10.1016/j.buildenv.2022.109461
Author(s):
Alice Pittini (Housing Europe), Andreas Tuerk (Joanneum Research),
Angela Greco (TNO),
Ann Kristin Kvellheim (SINTEF) Inger Andresen (NTNU)
Jannika Aalto (GDFA)
Niki Gaitani (NTNU)
Victoria Taranu (BPIE)
Published in:
EUSEW 2024 , Brussels, Belgium, 13 June 2024, 2024
Publisher:
Zenodo
DOI:
10.5281/zenodo.13985955
Author(s):
Haoran, Li; Juan, Hou; Nord, Natasa - Norwegian University of Science and Technology
Published in:
Proceedings of the 63rd International Conference of Scandinavian Simulation Society, SIMS 2022, 2022
Publisher:
Linköping University Electronic Press
Author(s):
Haoran Li *a, Juan Hou *a, Natasa Nord *a
a) Department of Energy and Process Technology, Norwegian University of Science and Technology, Kolbjørn Hejes vei 1 B, Trondheim 7491, Norway
Published in:
Proceedings of International Conference IEEP 2022, November 08-09, 2022, Faculty of Mechanical Engineering of the University of Belgrade, Belgrade, Serbia, 2022, Page(s) pp. 284 – 293, ISBN 978-86-7877-032-6
Publisher:
.
Author(s):
Haoran Li (*a), Juan Hou (a), Natasa Nord (a)
(a) Department of Energy and Process Technology, Norwegian University of Science and Technology, Kolbjørn Hejes vei 1 B, Trondheim 7491, Norway
Published in:
2022
Publisher:
CLIMA 2022 The 14th REHVA HVAC World Congress
DOI:
10.34641/clima.2022.347
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