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Energy Efficient Ventilated Façades for Optimal Adaptability and Heat Exchange enabling low energy architectural concepts for the refurbishment of existing buildings

Leistungen

Report on Life Cycle Assessment, Cost analysis and Energy Performance evaluation

Definitions and calculations for the LCA using existing standards, the life cycle energy performance through the use of NER and the LCCA considering the previous calculations and the economic impact assessment.

Final report, including gender equity actions Evaluation of the performance after retrofitting

This deliverable will describe the assesment of monitoring process which will be carried out during one year taking into account the Performance Measurement and Verification Protocol (MVP) for verifying the results of energy efficiency and renewable energy. This deliverable also includes the description of data after renovations performance with the aim to transfer the information to an open access database of energy efficient solutions, such as the CONCERTO database or similar.

Report on Eco-Design and Best Available Technologies

Identification of the elements from E2VENT that should be improved during the retrofitting in order to comply with the EcoDesign, considering the results from the task 4.2.

2nd year progress report, including gender equity actions

In the second year progress report an overview of the project its main concept its development within the two first years will be presented A progress report will show the advancement of the project compared to the planning

Social acceptance

This deliverable will include the social acceptance in terms of Construction and installation process, energy performance, comfort, perceived indoor air quality, operation of the system and economic aspects in different steps of the retrofitting of the buildings.

Potential social impact of E2VENT and users engagement

Assessment of user acceptance with respect to indoor quality and disruption of their activities during the retrofitting process; feedback on the impact on their behaviour and overall perception of the improvemnet of quality of life and energy use profile.ile.

Methodology for the retrofitting system design

Upon completion of the previous tasks 41 42 and 43 a complete methodology will be created in order to integrate the architectural and the functional energetic design specifications complying with energy efficiency sustainability and costeffectiveness

Monitoring of the buildings after retrofitting

This deliverable will describe the monitoring process of the performance of the retrofitting kit which will include Energy and other indoor environment parameters.

1st year progress report, including gender equity actions

In the first year report an overview of the project its main concept its development within the first year will be presented A progress report will show the advancement of the project compared to the planning

Report on energetic integration of the E2VENT system with the building energy systems

Analysis of the effective energetic integration of the retrofitting system with actually existing buildings. It will include energy consumption, HVAC systems and electricity for lighting services.

Report on policy workshops

Workshop enables participants to generate an understanding of the EU policy environment and equip them with the appropriate skills to effectively communicate their science to the policy making process.

Preliminary market assessment

Preliminary market analysis will be the initial glimpse into the overall environment to determine the likelihood of success for the new business

Final Exploitation workshop and Exploitation plan

Development of an appropriate strategy for the exploitation and protection of the project results. The first step for setting up a proper exploitation strategy will involve the precise identification of exploitable processes, products and knowledge, developed within the project.

3rd year progress report, including gender equity actions

In the third year report, the developments will be presented, especially the first prototype which will have been assembled, tested. Also, the two pilot sites will be presented. A progress report will show the advancement of the project compared to the planning.

Initial Exploitation workshop

Annual exploitation workshops will provide the whole consortium each year with a set of exploitation support services will be carried out the goals will be to detect the most promising results and to obtain agreement on the elements to go into the exploitation action plan

Report on dissemination activities

Dissemination report will sumarize the public activities performed within the whole project duration to ensure maximum visibility of the project in the international scale.

Project description, leaflet and presentations

The development of key messages will results in a onepage description of the project to be used in publications and articles A leaflet in English will be designed and printed In addition a standard project PPT presentation will be produced using the key messages This presentation will be updated after each progress meeting All marketing materials will refer to the project website which will be the allembracing information source and will be kept up to date on a regular basis

Website design and continuous updates

Project website will be set up in the early stage of the project for both consortium members and public access The website will be actively maintained during the project period

Monitoring and assessment of the buildings before retrofitting

The deliverable 61 will include the planning to measure through the monitoring plan the performance of the two buildings during one year including the data acquisition system Some parameters that will be measured are electricity gas consumption and indoor environment quality parameters It will be taking into account the Performance Measurement and Verification Protocol for verifying the results of energy efficiency and renewable energy as well as the data structure required by the Concerto database

Installation and commissioning of the system in both demonstrators

The deliverable 6.3 will include the planning to the installation of the systems and a detailed description of each step carried out. It will include the particular specification in cases, Spanish and Poland demo. This Deliverable also will include the planning and the commissioning and the results of each step.

Veröffentlichungen

Maximizing the building energy performance with advanced ventilated façade systems on existing structures

Autoren: D.K. Bikas, K.G. Tsikaloudaki, T.G. Theodosiou, D.C. Tsirigoti and S.P. Tsoka
Veröffentlicht in: Protection and Restoration of the Environment XIV, 2018, Page(s) 935-942, ISBN 978-960-99922-4-4
Herausgeber: N/A

Enhancing the building envelope performance of existing buildings using hybrid ventilated façade systems

Autoren: K. Tsikaloudaki, T. Theodosiou, S. Tsoka, D. Bikas
Veröffentlicht in: 5th International Academic Conference on Places and Technologies, 2018, Page(s) 485-492, ISBN 978-86-7924-199-3
Herausgeber: N/A

Integrated Building Energy Management System for devices into ventilated facades

Autoren: Roberto Sanz, Francisco Javier Miguel
Veröffentlicht in: Places and Technologies 2018 (VIII INTERNATIONAL CONGRESS ON ARCHITECTURAL ENVELOPES), 2018, Page(s) 263-269, ISBN 978-84-88734-11-2
Herausgeber: N/A

Innovative solutions for building energy renovation: social awareness and acceptance (in Greek)

Autoren: S. Tsoka, K. Tsikaloudaki, T. Theodosiou, D. Bikas
Veröffentlicht in: 11th National Conference On Renewable Energy Sources, 2018, Page(s) 97 (abstract), ISBN 978-9958-691-56-0
Herausgeber: N/A

E2VENT: a novel energy efficient system for ventilated façades

Autoren: D. Bikas, D, Aravantinos, K. Tsikaloudaki, T. Theodosiou, K. Kontoleon, C. Giarma et al
Veröffentlicht in: Conference: 5th International Conference on Renewable Energy Sources & Energy Efficiency - New Challenges, 2016, Page(s) 514-522
Herausgeber: .

E2VENT – design and integration of an adaptable module for residential building renovation

Autoren: Paolo Basso, Michele Mililli, Francisco J. M. Herrero, Roberto Sanz, Pau Casaldiga
Veröffentlicht in: JOURNAL OF FACADE DESIGN & ENGINEERING, Issue VOLUME 5 / NUMBER 2 / 2017, 2017
Herausgeber: NU DELFT
DOI: 10.7480/jfde.2017.2.1678

Daylight and energy enhancement with ventilated facade systems for renovation projects.

Autoren: K. Tsikaloudaki, D. Tsirigoti, S. Tsoka, T. Theodosiou, D. Bikas
Veröffentlicht in: Conference Places and Technologies 2017, 2017, Page(s) 399-408, ISBN 978-9958-691-56-0
Herausgeber: N/A

E2VENT: an adaptable module for the renovation of residential building. Presentation of the design and its integration with the building system.

Autoren: Paolo Basso, Michele Mililli, Francisco. J. M. Herrero, Pau Casaldiga
Veröffentlicht in: Conference ICBEST - International Conference on Building Envelope Systems and Technologies, 2017
Herausgeber: Journal of Façade Design and Engineering

E2VENT - an adaptale module for the renovation of residential building.

Autoren: BASSO P., MILILLI M., HERRERO F.J.M., SANZ R., CASALDIGA P.
Veröffentlicht in: Conference Advanced Building Skins, 2016
Herausgeber: N/A

Rethinking user based innovation: Assessing public and professional perceptions of energy efficient building facades in Greece, Italy and Spain

Autoren: Stella Tsoka, Katerina Tsikaloudaki, Theodoros Theodosiou, Antoine Dugue
Veröffentlicht in: Energy Research & Social Science, Issue 38, 2018, Page(s) 165-177, ISSN 2214-6296
Herausgeber: Elsevier Limited
DOI: 10.1016/j.erss.2018.02.009

Numerical investigation of the energy performance of an Opaque Ventilated Façade system employing a smart modular heat recovery unit and a latent heat thermal energy system

Autoren: Thierno M.O. Diallo, Xudong Zhao, Antoine Dugue, Paul Bonnamy, Francisco Javier Miguel, Asier Martinez, Theodoros Theodosiou, Jing-Sheng Liu, Nathan Brown
Veröffentlicht in: Applied Energy, Issue 205, 2017, Page(s) 130-152, ISSN 0306-2619
Herausgeber: Pergamon Press Ltd.
DOI: 10.1016/j.apenergy.2017.07.042

Ventilated Facades: Requirements and Specifications Across Europe

Autoren: D. Bikas, K. Tsikaloudaki, K.J. Kontoleon, C. Giarma, S. Tsoka, D. Tsirigoti
Veröffentlicht in: Procedia Environmental Sciences, Issue 38, 2017, Page(s) 148-154, ISSN 1878-0296
Herausgeber: Elsevier
DOI: 10.1016/j.proenv.2017.03.096

E2VENT: An Energy Efficient Ventilated Façade Retrofitting System. Presentation of the Embedded LHTES System

Autoren: Antoine Dugué, Saed Raji, Paul Bonnamy, Denis Bruneau
Veröffentlicht in: Procedia Environmental Sciences, Issue 38, 2017, Page(s) 121-129, ISSN 1878-0296
Herausgeber: Elsevier
DOI: 10.1016/j.proenv.2017.03.093

Development of a Smart Modular Heat Recovery Unit Adaptable into a Ventilated Façade

Autoren: A. Martinez, I. Urra, J. Hernandez, T. Diallo, X. Zhao
Veröffentlicht in: Procedia Environmental Sciences, Issue 38, 2017, Page(s) 94-101, ISSN 1878-0296
Herausgeber: Elsevier
DOI: 10.1016/j.proenv.2017.03.086

Analysis of the Thermal Bridging Effect on Ventilated Facades

Autoren: T. Theodosiou, K. Tsikaloudaki, D. Bikas
Veröffentlicht in: Procedia Environmental Sciences, Issue 38, 2017, Page(s) 397-404, ISSN 1878-0296
Herausgeber: Elsevier
DOI: 10.1016/j.proenv.2017.03.121

EeB PPP project review / E2VENT project

Autoren: Antoine Dugué (Nobatek)
Veröffentlicht in: 2016
Herausgeber: ECTP

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