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InnoWEE project will focus on the development and field tests of new high performance pre- fabricated geopolymeric panels made with a large content of recycled CDW for outdoor and indoor building walls. The different and combined solutions will be assessed in terms of energy efficiency and environmental sustainability, cost-effective- ness in manufacturing and installation, market potential and exploitability. The prod- ucts will have different characteristics and a high performance like low or high thermal transmittance in function of the application, high fire resistance, lightness, high mechani- cal robustness, enhanced surface properties. Affordable costs of these solutions will be ensured by the low formulation costs due to the use of recycled waste materials and by the easier and faster installation/removal practices. Moreover, the raw materials used and the associated production technologies will contribute to the reduction of embodied energy and the CO 2 emission during manufac- turing. Finally the stakeholders/end users/SMEs participating directly and indirectly in the project will ensure their strong acceptance to guarantee their local introduction in the European markets and other world wide markets. OBJECTIVE WP1. Identification of the waste typologies and their use in new construction material Main objective of WP1 is the identification and categorization of the CDW typologies collected in Europe. Their performance will be analyzed in laboratory and a produc- tion line will be set up for treatment of CDW. Moreover, existing European and national standards, codes and guidelines will be identified and updated. Based on these assessments performance indicator for the efficiency evaluation of the new materials will be established and environmental performance analysis (LCA) will be conducted. Finally the first preliminary business model will be developed. WP2. Development of the new materials including different construction waste and performance evaluation in laboratory The activities will be focused on the definition of the design of geopolymer binder, and on the development and assessment (physical/mechanical characteristics) of the prototypes of new eco-friendly insulating façade and radiating panels. WP3. Production definition and scale up of new panels The technical plant design and production steps of geopolymeric components will be established in order to upscale eco-friendly insulating façade and radiating panels, set up small scale production of panels for demo site applications and assess industrial production. WP5. Demonstration and validation in field, performance evaluation and scenarios The selected solutions will be installed in 4 buildings: a pilot demo case, a new, an existing and a historical building. This will permit the evaluation of the performance and durability in field with respect to energy efficiency, durability and comfort. Results will be monitored in compliance with national/European standards, codes and guidelines for all demo sites. The innovative products will be also compared with the traditional ones in terms of installation time and costs. Moreover, their performance will be evaluated in a large European scenario. WP4. Selection of the best technical solutions, energy performance and project design The best solution for an easy installation and disassembly of panels based on architectural and costs evaluation will be identified. The solutions will be optimized by modelling the energy performance of the different scenarios. This will permit to elaborate the project designs for each demo building. WP6. Business models, market introduction plan and future impact This WP will define the production and installation methods for a large scale application and capital costs of ownership. A final business plan with respective risk assessment and sensitivity analysis of data will be developed. Furthermore, the costs vs performance during the whole life cycle (LCCA) will be evaluated, Exploitation plans for different European markets centred on SME interests will be developed, and a Life Cycle Thinking (LCT) approach will be used for supporting environmentally sound decision for waste management. WP7. Dissemination exploitation and communication activities The main actions in this WP includes setting-up and maintenance of a web site, wide dissemination of the outcomes towards stakeholders, promotion of the project among the academic comunity, governments, policy makers, designers and engineers, energy efficiency social housing, definition of a training plan, development of training material and training of end-users, ensurance of knowledge exchange and easy communication among the partners, as well as between partners and stakeholders. Real Virtual B i l b a o , S p a i n P a r o s , G r e e c e P a d u a , I t a l y B u c h a r e s t , R o m a n i a B u c h a r e s t , R o m a n i a P a d u a , I t a l y M e c h e l e n , B e l g i u m A th e n s , G r e e c e ACTIVITIES DEMO SITES
Transcript of InnoWEE brochure with margins italian v2innowee.eu/wp-content/uploads/2019/11/InnoWEE_1st... ·...
InnoWEE project will focus on the development and field tests of new high performance pre-fabricated geopolymeric panels made with a large content of recycled CDW for outdoor and indoor building walls.
The different and combined solutions will be assessed in terms of energy efficiency and environmental sustainability, cost-effective-ness in manufacturing and installation, market potential and exploitability. The prod-ucts will have different characteristics and a high performance like low or high thermal transmittance in function of the application, high fire resistance, lightness, high mechani-cal robustness, enhanced surface properties. Affordable costs of these solutions will be ensured by the low formulation costs due to the use of recycled waste materials and by the easier and faster installation/removal practices. Moreover, the raw materials used and the associated production technologies will contribute to the reduction of embodied energy and the CO2 emission during manufac-turing. Finally the stakeholders/end users/SMEs participating directly and indirectly in the project will ensure their strong acceptance to guarantee their local introduction in the European markets and other world wide markets.
OBJECTIVE
WP1. Identification of the waste typologies and their use in new construction material
Main objective of WP1 is the identification and categorization of the CDW typologies collected in Europe. Their performance will be analyzed in laboratory and a produc-tion line will be set up for treatment of CDW. Moreover, existing European and national standards, codes and guidelines will be identified and updated. Based on these assessments performance indicator for the efficiency evaluation of the new materials will be established and environmental performance analysis (LCA) will be
conducted. Finally the first preliminary business model will be developed.
WP2. Development of the new materials including different construction waste and performance evaluation in laboratoryThe activities will be focused on the definition of the design of geopolymer binder, and on the development and assessment (physical/mechanical characteristics) of the
prototypes of new eco-friendly insulating façade and radiating panels.
WP3. Production definition and scale up of new panelsThe technical plant design and production steps of geopolymeric components will be established in order to upscale eco-friendly insulating façade and radiating panels, set up small scale production of panels for demo site applications and assess
industrial production.
WP5. Demonstration and validation in field, performance evaluation and scenarios
The selected solutions will be installed in 4 buildings: a pilot demo case, a new, an existing and a historical building. This will permit the evaluation of the performance and durability in field with respect to energy efficiency, durability and comfort. Results will be monitored in compliance with national/European standards, codes and guidelines for all demo sites. The innovative products will be also compared with the traditional ones in terms of installation time and costs. Moreover, their
performance will be evaluated in a large European scenario.
WP4. Selection of the best technical solutions, energy performance and project design
The best solution for an easy installation and disassembly of panels based on architectural and costs evaluation will be identified. The solutions will be optimized by modelling the energy performance of the different scenarios. This will permit to
elaborate the project designs for each demo building.
WP6. Business models, market introduction plan and future impact
This WP will define the production and installation methods for a large scale application and capital costs of ownership. A final business plan with respective risk assessment and sensitivity analysis of data will be developed. Furthermore, the costs vs performance during the whole life cycle (LCCA) will be evaluated, Exploitation plans for different European markets centred on SME interests will be developed, and a Life Cycle Thinking (LCT) approach will be used for supporting
environmentally sound decision for waste management.
WP7. Dissemination exploitation and communication activities
The main actions in this WP includes setting-up and maintenance of a web site, wide dissemination of the outcomes towards stakeholders, promotion of the project among the academic comunity, governments, policy makers, designers and engineers, energy efficiency social housing, definition of a training plan, development of training material and training of end-users, ensurance of knowledge exchange and easy communication among the partners, as well as
between partners and stakeholders.
Real
Virtual
Bilb
ao, Spain
Paros, G
reece
Padua, Ita
ly
Buch
arest, Romania
Buch
ares
t, R
oman
ia
Padua,
Italy
Mec
hele
n, Bel
giu
m
Athens, Greece
ACTIVITIES
DEMO SITES
Visione del progetto
Lo scopo principale del progetto InnoWEE è lo sviluppo di un ottimale riutilizzo dei materiali provenienti dai rifiuti da costruzione e demolizione (CDW) per produrre pannelli prefabbricati isolanti e radianti ad alto valore aggiunto da utilizzare in edifici ad alta efficienza energetica.
Il progetto InnoWE si basa su:
Recupero, separazione, selezione e trattamento dei CDW.
Sviluppo di nuovi pannelli geopolimer-ici prefabbricati ad alte prestazioni per l'isolamento e per il riscaldamento/raf-frescamento di ambienti.
Fabbricazione di un prodotto che sia conveniente, competitivo, robusto, affida-bile ed a bassa manutenzione.
Creazione di soluzioni costruttive pratiche e sostenibili facili da integrare nel design degli edifici.
Valutazione delle prestazioni dei nuovi pannel-li in siti dimostrativi caratterizzati da differenti condizioni climatiche.
Rivolto ai seguenti argomenti del Work Programme: EEB-04-2016 Nuove tecnologie e strategie per lo sviluppo di
elementi prefabbricati attraverso il riutilizzo e il riciclaggio di materiali e strutture da costruzione
The content of this document does not reflect the official opinion of the European Union. Responsibility for the information and views expressed in the document lies entirely with the author(s).Legal Notice: The information in this document is subject to change without notice. The Members of the project consortium make no warranty of any kind with regard to this document, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. The Members of the project consortium shall not be held liable for errors contained herein or direct, indirect, special, incidental or consequential damages in connection with the furnishing, performance, or use of this material. Possible inaccuracies of information are under the responsibility of the project. This report reflects solely the views of its authors. The European Commission is not liable for any use that may be made of the information contained therein.
Progetto numero: 723916 Costo del progetto: 3.36 milioni di € Mese di partenza: Ottobre 2016 Durata del progetto: 4 years
Sviluppo di nuovi pannelli geopolimerici ad alte prestazioni contenenti CDW di diversa tipologia per facciate eco-isolanti (pannelli di tipo ETIC e per facciate venti-late) e sistemi radianti da interni (pannelli monolitici e assemblati) a basso impatto ambientale, a bassa energia incorporata, basse emissioni di CO
2 e alte prestazioni
termiche.
„Questo progetto ha ricevuto un finanziamento dal programma di ricerca e innovazione HORIZON 2020 dell'Unione Europea con convenzione di sovvenzione N° 723916”
https://www.linkedin.com/groups/8523567
CONTATTI
Dr. Adriana [email protected]
CNR-ISAC
Consiglio Nazionale Delle RicercheIstituto di Scienze dell’Atmosfera e del Clima
Corso Stati Uniti 4, 35127 Padova (Italy)
https://twitter.com/innowee_h2020
https://www.innowee.eu
COORDINATOR CNR-ISAC, Italy
Advanced Management Solutions, Greece
R.E.D SRL, Italy
Tecnalia Research & Innovation, Spain
Guidolin Giuseppe - Eco. G. srl, Italy
S.C Pietre Edil S.R.L, Romania
IZNAB Spolka z Ograniczona Odpowiedzialnoscia, Poland
Slovenian National Building and Civil Engineering Institute, Slovenia
S.C. MAGNETTI BUILDING S.R.L, Romania
Municipality Varis-Voulas-Vouliagmenis, Greece
I PARTNER
FROM WASTE TO ENERGY EFFICIENCYInnoWEE
InnoWEEElementi prefabbricati inno-vativi contenenti rifiuti da costruzione o demolizione (CDW) di diversa tipologia per la riduzione del con-sumo energetico dell'edi-ficio e per minimizzare l'impatto ambientale
CNR-ITC, CNR-ICMATE, Italy
FROM WASTE TO ENERGY EFFICIENCYInnoWEE
