Sessione parallela Energy & Environment

Horizon 2020: il Programma Quadro dell’Unione Europea per la Ricerca e l’Innovazione e le opportunità di partecipazione per le imprese cooperative 24 gennaio 2014

Sessione parallela Energy & Environment

Teresa Bagnoli Coordinatrice Piattaforma Costruzioni Stefano Valentini Coordinatore Piattaforma Energia e Ambiente

Indice

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Horizon 2020 Inquadramento/ concetto RTL ENERGY EFFICIENCY LOW CARBON ENERGY ENVIRONMENT PARTENARIATI E STRUMENTI Horizon & Regione Emilia-Romagna RETE Alta Tecnologia per Horizon Chi contattare Suggerimenti

2

3

Three priorities

32%

22%

Excellent science

Industrial leadership

Societal challenges

4

+ EIT, JRC, Widening, SwfS

8%

38%

Come trovare le call e i topic?

 HORIZON PILLAR  WORK PROGRAMME  CALL – Focus Area (opzionale)

» TOPIC ESEMPIO  HORIZON PILLAR: SOCIETAL CHALLANGES  WORK PROGRAMME:SECURE, CLEAN AND EFFICIENT ENERGY  CALL: ENERGY EFFICIENCY  Focus Area: A-Building and Consumers – TOPIC: EE 1 MANUFACTURING OF PREFABRICATED MODULES FOR RENOVATION OF BUILDINGS

5

ENERGY EFFICIENCY

 HORIZON PILLAR: Industrial leadership/Societal Challanges  WORK PROGRAMME:  5-ii -Nanotechnologies,Advanced Materials, Biotechnology and Advanced Manufacturing and Processing  10 -Secure, Clean And Efficient Energy

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

LOW CARBON ENERGY

 HORIZON PILLAR: Societal Challanges  WORK PROGRAMME:10 -Secure, Clean And Efficient Energy  CALL: Competitive Low Carbon Energy

26

27

28

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LCE 3 – 2014/2015: Demonstration of renewable electricity and heating/cooling technologies

34

LCE 3 – 2014/2015: Demonstration of renewable electricity and heating/cooling technologies

35

LCE 3 – 2014/2015: Demonstration of renewable electricity and heating/cooling technologies Specific Challenges:  2014: Shallow geothermal energy: Improved vertical borehole drilling technologies to enhance safety and reduce costs –Further improvement of the efficiency of shallow geothermal systems and reduction of installation costs are needed to increase deployment of these geothermal systems for the heating & cooling market.



2015: Demonstration of solar technologies for residential and nonresidential buildings - The use of solar energy for the production of domestic hot water and for space heating needs to increase to make full use of this renewable energy source. Innovative and cost-effective solutions in terms of components and system design and with a higher share of heating supplied by solar energy need to be demonstrated. Scope: Demonstration of these solutions, accompanied, where appropriate, by supporting research activities and activities targeting market uptake. Indicative budget: contribution from the EU in the range of EUR 5-20 million (73+80 Ml including LCE12) Type of action: Innovation actions Deadline: 10/09/14 – 03/03/2015 Technology Readiness Levels (TRL): TRL 5-6 to TRL 6-7 36

SIE 1 – 2014/2015: Stimulating the innovation potential of SMEs for a low carbon and efficient energy system Specific Challenge: SMEs play a crucial role in developing resource-efficient, costeffective and affordable technology solutions to decarbonise and make more efficient the energy system in a sustainable way, in particular with regard to  Reducing energy consumption and carbon footprint by smart and sustainable use (including energy-efficient products and services as well as „Smart Cities and Communities‟),  Low-cost, low-carbon electricity supply (including renewable energy as well as CCS and re-use),  Alternative fuels and mobile energy sources,  A single, smart European electricity grid,  New knowledge and technologies, and  Robust decision making and public engagement

37

SIE 1 – 2014/2015: Stimulating the innovation potential of SMEs for a low carbon and efficient energy system Participants can apply to phase 1 with a view to applying to phase 2 at a later date, or directly to phase 2.  Phase 1: a feasibility study shall be developed verifying the technological/practical as well as economic viability of an innovation idea/concept with considerable novelty (Euro 50.000 – 6 months)  Phase 2: innovation activities such as demonstration, testing, prototyping, piloting, scaling-up, miniaturisation, design, market replication and the like aiming to bring an innovation idea (product, process, service etc) to industrial readiness and maturity for market introduction, but may also include some research (12-24 months) Technology Readiness Level 6 or more Indicative budget: contribution from the EU in the range of EUR 0.5-2.5 million (33.95 ml – 3.4 phase 1 – 29.89 phase 2) Type of action: SME instrument Deadline: 1/03/14 -18/06/14 phase 1 – 09/10/14 phase 2

38

ENVIRONMENT

 HORIZON PILLAR: Societal Challanges  WORK PROGRAMME:  12 –Climate action, environment, resource efficiency and raw materials  CALL: WASTE, WATER, GROWING LOW CARBON…

39

40

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42

43

WASTE-1-2014: Moving towards a circular economy through industrial symbiosis Specific challenge: eco-innovative solutions and resource-efficient products, processes and services, and their uptake which will be facilitated by new sustainable lifestyles and consumption behavior. Industrial symbiosis, whereby different actors derive mutual benefit from sharing utilities and waste materials, requires large-scale systemic innovation with the aim of turning waste from one industry into useful feedstock for another one. Scope: Proposals should aim to demonstrate that the increase of product life-spans, enable product and material reuse, recycling, and reduce generation of waste. Significant role to SMEs. ICT Indicative budget: contribution from the EU in the range of EUR 8-10 million (44 Ml) Type of action: Innovation actions Deadline: 08/04/14 (first stage) Energia & Ambiente/ AgroFood/ICT/Cost 44

WASTE 2_2014: A systems approach for the reduction, recycling and reuse of food WASTE Specific challenge: Technologies for the collection, sorting/grading, stabilisation and valorisation of food waste, by-products and packaging material need improvement or development. The aim is to optimise the performance of the whole food system, including packaging, catering and consumers, and achieve a secure and sustainable food supply, also for the poor. Scope: Proposals should both address approaches to reducing food waste and packaging materials generated at relevant stages of the food system and investigate ways of converting food waste into value-added by-products. (involvment of ICT) Indicative budget: contribution from the EU in the range of EUR 9 million (9Ml) Type of action: Research and innovation actions Deadline: 08/04/14 (first stage) 45

WASTE 3_2014: Recycling of raw materials from products and buildings Specific challenge: New solutions for the extraction of the raw materials from more complex products and buildings containing a multitude of minerals and metals, wood-fibre based materials, polymers and plastics Scope: one of the following issues of sustainable recycling and recovery of raw materials:  developing innovative technological solutions, for the recovery of minerals and metals (..);  developing solutions for a better recovery of raw materials (metals, aggregates, concrete, bricks, plasterboard, glass, polymers and plastics, and wood) from construction and demolition (C&D) waste, particularly from the most promising objects, such as deconstruction of non-residential buildings.

Indicative budget: contribution from the EU in the range of EUR 6-8 million (available budget: 14,5 Ml) Type of action: Research and innovation actions Technology Readiness Levels (TRL): 5-6 Deadline: 08/04/14 one stage Interesse RER: Energia & Ambiente/ Cost urban mining 46

47

48

WATER-1-2014/2015: Bridging the gap: from innovative water solutions to market replication Specific challenge: to accelerate the commercialisation of eco-innovative water solutions with a view to stimulating sustainable economic growth, business and job creation in the water sector Scope 2014: First application and market replication of near-market water solutions, addressing the thematic priorities:      

water reuse and recycling; water and waste water treatment, including recovery of resources; water and energy integration; flood and drought risk management; ecosystem services in the provision of water related services cross-cutting priorities: water governance; decision support systems and monitoring; and financing for innovation

Indicative budget: contribution from the EU in the range of EUR 2-4 million (39 ml) Type of action: Innovation actions Deadline: 08/04/14 (first stage) Participation of SMEs encouraged Involvmento of ICT 49

50

51

SC5-20-2014/2015: Boosting the potential of small businesses for eco-innovation and a sustainable supply of raw materials Specific challenge: targeted at all types of eco-innovative SMEs in all areas addressing the climate action, environment, resource efficiency and raw materials challenge, focusing on SMEs showing a strong ambition to develop, grow and internationalise. All kinds of promising ideas, products, processes, services and business models, notably across sectors and disciplines, for commercialisation both in a business-to-business (B2B) and a business-to-customer (B2C) context, are eligible Participants can apply to phase 1 with a view to applying to phase 2 at a later date, or directly to phase 2.  Phase 1: a feasibility study shall be developed verifying the technological/practical as well as economic viability of an innovation idea/concept with considerable novelty (Euro 50.000 – 6 months) Phase 2: innovation activities such as demonstration, testing, prototyping, piloting, scaling-up, miniaturisation, design, market replication and the like aiming to bring an innovation idea (product, process, service etc) to industrial readiness and maturity for market introduction, but may also include some research (12-24 months) Technology Readiness Level 6 or more Indicative budget: contribution from the EU in the range of EUR 0.5-2.5 million (17 ml – 1.7 phase 1 – 14.96 phase 2) Type of action: SME instrument Deadline: 18/06/14 phase 1 – 09/10/14 phase 2 52

Information Days PPPs

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Information Days PPPs

ENVIRONMENT: https://circabc.europa.eu/faces/jsp/extensio n/wai/navigation/container.jsp

54

Information Days PPPs

Link utili 

You can view the recordings of the sessions and download the presentations from the plenary and parallel sessions from the Programme page : http://ec.europa.eu/research/industrial_technologies/events-h2020-programme2013_en.html



The project idea presentations from the brokerage sessions are published on the websites of the Industry Associations (ECTP E2B): http://www.ectp.org/enewsportal/index.php?option=com_content&view=article&id=900:ee b-brokerage-event-at-2o13-ppp-infodays&catid=75:information&Itemid=61  Project ideas http://www.ectp.org/cws/params/ectp/download_files/36D2996v1_Projectideas_(zip).zip  Organizations http://www.ectp.org/cws/params/ectp/download_files/36D2997v1_Organisations_(zip) .zip

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Consigli per la presentazione

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I SISTEMI

SISTEMI DI INTERESSE STRATEGICO

SISTEMI AD ELEVATO POTENZIALE DI CRESCITA

Agroalimentare

Industrie della salute

Edilizia e Costruzioni

Industrie culturali e creative

Meccatronica e Motoristica

69

PRIORITA’ TECNOLOGICHE

• Selezionate in modo condiviso dai policy makers e dagli attori dell‟innovazione locale • Ambiziose (in una logica di sviluppo) ma realistiche (concretamente applicabili nel contesto territoriale) • In grado di valorizzare gli asset esistenti e di attrarre conoscenza dall‟esterno • Derivanti da una logica convergente bottom-up e top-down • Non settoriali ma in grado di operare in una logica di related variety, cioè di connessione domini tecnologici/mercati inaspettati e inusuali • Fortemente connessi, allo stesso tempo, ai temi tecnologici (KETs) e sociali (sfide sociali di H2020, social innovation, …)

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INVITO A PRESENTARE MANIFESTAZIONI DI INTERESSE PER L‟INTEGRAZIONE DEI PROGRAMMI DI RICERCA DEI LABORATORI DEI TECNOPOLI PER LA REALIZZAZIONE DI STUDI DI FATTIBILITÀ FUNZIONALI ALLA PRESENTAZIONE DI PROGETTI NELL‟AMBITO DEL PROGRAMMA

HORIZON 2020

Obiettivo di realizzare studi di fattibilità finalizzati alla messa a punto di progetti da presentare nell‟ambito delle prossime call di Horizon 2020, coinvolgendo prioritariamente le imprese della regione A sportello dal 02/02/2014 fino al 30/04/2014

A sportello dal 02/02/2014 fino al 30/04/2014 73

LA RETE IN CIFRE

    

6 Piattaforme Tecnologiche 10 Tecnopoli 35 Laboratori 66 Unità Operative di ricerca Investimenti per 246 milioni di euro:  142 dalla Regione,  90 da enti di ricerca e università,  14 dagli Enti locali.

LE PIATTAFORME TEMATICHE REGIONALI  La Rete Alta Tecnologia è incardinata sulle 6 piattaforme tematiche nate per aggregare le competenze presenti in regione  La loro missione :  Supportare le aziende dei propri settori acquisendo gli strumenti più opportuni per lo sviluppo  Incentivare e indirizzare gli sforzi di innovazione  Definire gli scenari internazionali di riferimento e le traiettorie regionali di sviluppo

La Rete dell’Alta Tecnologia dell’Emilia-Romagna 75

LABORATORI DI RICERCA INDUSTRIALE RETE ALTA TECNOLOGIA

PIATTAFORME COSTRUZIONI ED ENERGIA & AMBIENTE

76

Piattaforma Costruzioni – Larco Icos

LARCO ICOS (RICOS) Laboratorio di ricerca e trasferimento tecnologico per un costruire sicuro, sostenibile ed efficiente      



Nuovi materiali prodotti e sistemi per involucri performanti Nuove soluzioni integrate involucro-impianto alimentati da FER Sistemi isolamento ad elevate prestazioni infissi innovativi Sistemi innovativi di controllo e gestione a distanza Nuovi strumenti di diagnosi energetica e di monitoraggio Nuovi modelli di valutazione della sostenibilità ambientale e qualificazione ecosostenibile degli interventi Nuove soluzioni per l‟edilizia sociale e per le persone disabili

Occupa 20 Ricercatori di cui 14 a tempo pieno

Piattaforma Costruzioni – CIRI Edilizia e Costruzioni

CIRI EDILIZIA E COSTRUZIONI (Università di Bologna) 

Fluidodinamica per le applicazioni energetiche ed ambientali



Produzione e gestione del patrimonio edilizio: sicurezza, sostenibilità, efficienza energetica



Tecnologie innovative applicate al restauro, recupero e riqualificazione del patrimonio costruito (sede di Ravenna)

Personale: 85 docenti impegnati a tempo parziale 19 ingegneri/tecnici con contratti triennali (+ 15 dal 1.1.2012) flanking transmission (W2) (Wi) direct transmission (W1) flanking transmission (W2)

Piattaforma Costruzioni – CIRI Edilizia e Costruzioni

CIRI EDILIZIA E COSTRUZIONI (Università di Bologna) UO: Fluidodinamica per le applicazioni energetiche ed ambientali  Opere fluviali: supporto alla progettazione e alla Gestione (modelli fisici, rilievi di campo)  Energie rinnovabili: mini-hydro (ruote idrauliche)  Energia da onda e da vento  Reti idriche urbane UO: Produzione e gestione del patrimonio edilizio: sicurezza, sostenibilità, efficienza energetica  Sistemi prefabbricati in calcestruzzo armato  Tecnologie innovative per sistemi a parete portante  Prove dinamiche per il collaudo strutturale  Sistemi per il monitoraggio strutturale  Vulnerabilità sismica  Indagini non distruttive in situ  Materiali compositi per il rinforzo strutturale  Calcestruzzi speciali: fibrorinforzati e autocompattanti  Modellizzazione numerica delle strutture  Energetica e Acustica degli edifici UO: Tecnologie innovative applicate al restauro, recupero e riqualificazione del patrimonio costruito (sede di Ravenna)  Riqualificazione del patrimonio edilizio  Conservazione e diagnostica dei beni culturali

Piattaforma Costruzioni – Teknehub

TEKNEHUB (Università di Ferrara)     

Metodi e tecnologie del restauro architettonico Strumenti, materiali e tecniche per la museografia e l‟exhibition design Diagnostica e conservazione Tecnologie per il recupero e la conservazione del patrimonio paleontologico ed archeologico Gestione e valorizzazione del patrimonio culturale

Personale: 23 docenti impegnati a tempo parziale 15 ricercatori

Piattaforma Costruzioni – En&tech

Centro interdipartimentale EN&TECH (Università di Modena e Reggio Emilia) Tecnologie Integrate per l’Energia sostenibile  Strumenti, modelli, metodologie, materiali per il risparmio

energetico nelle costruzioni  Domotica e Illuminazione  Conversione efficiente dell‟energia 

Personale: 9 personale dedicato 24 personale a tempo parziale

Piattaforma Costruzioni – Centro Ceramico

CENTRO CERAMICO BOLOGNA Centro di Ricerca e Sperimentazione per l’industria ceramica



Scienza e tecnologia dei Materiali Ceramici. - Innovazione di prodotto - Innovazione di processo - Valorizzazione e diffusione dei risultati - Sostenibilità e sviluppo sostenibile

Innovazione di

PROCESSO





Consorzio interuniversitario (dal 1976), 2 sedi Bologna e Sassuolo (MO)

37 dipendenti (di cui 2 unità di personale universitario); 89% autofinanziamento

Innovazione di

Valorizzazione e

PRODOTTO

DIFFUSIONE dei risultati

SOSTENIBILITA’ e Sviluppo sostenibile

Piattaforma Costruzioni – ISTEC CNR

ISTEC CNR Istituto di Scienza e Tecnologia dei Materiali Ceramici

Studio delle proprietà e innovazione dei materiali e dei processi nei diversi settori che richiedono l‟applicazione di materiali e dispositivi ceramici.

   

Energia e Ambiente High-tech e Nanotecnologie Biomateriali Patrimonio Culturale

Personale: 40 dipendenti di ruolo CNR 20 ricercatori / personale temporaneo

Piattaforma Costruzioni – ISTEC CNR

ISTEC CNR Energia e Ambiente  Produzione di dispositivi ceramici per applicazioni energetiche, ottiche e sensoristiche High-tech e Nanotecnologie  Materiali ceramici per l‟edilizia e le costruzioni e studio di componenti a funzionalità avanzate  Ceramici strutturali ad alte prestazioni per i settori della meccanica, dei trasporti, dell‟elettronica e dell‟aerospazio  Geopolimeri (isolanti termo-acustici e rivestimenti con procedure a basso impatto ambientale e consumi energetici trascurabili)  Sistemi nanoparticellari per applicazioni estetiche e funzionali

Biomateriali  Settore della medicina rigenerativa (bioceramici e biotecnologie per la medicina) Patrimonio culturale  Studi diagnostici e archeometrici  Analisi dei meccanismi di degrado per la messa a punto di interventi di restauro mirati e azioni conservative nel tempo del patrimonio ceramico, lapideo e architettonico

Piattaforma Costruzioni – Certimac

CERTIMAC Tecnopolo MITAI – Materiali Innovativi e Tecnologie per Applicazioni Industriali Centro di ricerca sui temi dell‟Eco-efficienza, Sostenibilità, Nuovi Materiali. Ambiti di intervento:       

Efficienza Energetica Riqualificazione sostenibile Smart Building Nuovi materiali (materiali compositi ceramici e polimerici, materiali innovativi per l‟eco-efficienza) Sicurezza Superfici funzionalizzate Involucro intelligente Personale: 4 ricercatori strutturati 3 non strutturati

Piattaforma Costruzioni – Certimac

CERTIMAC Tecnopolo MITAI – Materiali Innovativi e Tecnologie per Applicazioni Industriali Laboratorio analisi materiali da costruzione, testing di prodotto, certificazione, ricerca e sviluppo, Trasferimento tecnologico.

Tra i principali settori di applicazione:    

Edilizia Energia Ambiente Beni Culturali

Energy and Environment LAB description

CIRI Energy & Environment – Univ. of Bologna

Operative Units “REACH” & “Bioenergies” (in Bologna)  SPECIALIZATION FIELDS:  Chemical, bio-toxicological and ecological/environmental research of chemical substances used in production processes aiming at implementing the REACH regulation  Dedicated energy crops and residual biomass in agriculture.  Technologies for the environment and RES-based applications: process for the production of biofuels, hydrogen, synthetic gas and the use of green house gases; low temperature fuel cells.  RES technologies (wind, solar, geothermal,hydro, biomass combustion) 

MAIN FIELDS OF IMPACT:  Any production chain using chemical substances;  Agri-food, energy and environmental services businesses;  Chemical and energy production businesses;  Automotive; Nautical science.

CIRI ENA – University of Bologna

Operative Unit “Industrial eco-design, waste recovery and products life cycle “(in Rimini) 

SPECIALIZATION FIELDS:  Eco-design, Eco-efficiency and Industrial ecology for economic and environmental sustainability of industrial activities  Sustainable managing of waste life cycle, from preventions to re-products  Instruments for the validation of process sustainability (LCA)  Biological, chemical/physical and mechanical processes for the recovery of chemicals from biomasses (biorefineries)  Microproduction of energy at a local level and energy optimization for factories  Techniques of “soil washing”



MAIN FIELDS OF IMPACT :  Service companies; Public Utilities; Chemical industry; Food sector.

CIRI ENA – University of Bologna Operative Unit “Biomass “(in Ravenna)  SPECIALIZATION FIELDS:  Conventional and non-conventional anaerobic digestion of organic matrices (algae biomass included)  Biotechnological processes for the production of algal biomass in an incubated microcosm  Production and optimization of anaerobic digestion plants, both lab-scale and pilot

 MAIN FIELDS OF IMPACT :  Biotechnologies;  Biogas engines;  Biorefineries and industrial biotechnologies.

PROAMBIENTE – CNR (National Research Council)

PROAMBIENTE Laboratory Engineering and development of equipment and services for the environment  SPECIALIZATION FIELDS:  Development and integration of innovative equipment and sensor arrays for the environmental sector (atmosphere, sea, territory, urban and work environments), including small plants for alternative energy productions (photovoltaic, micro wind power)  Environmental modelling and monitoring, including advanced mobile platforms  Territory management and sustainable development.

 MAIN FIELDS OF IMPACT :  Environment, Agri-food, Energy, Transports, Tourism, Logistics, Civil Protection, Occupational health

CRPA LAB

CRPA LAB Characterization, process optimization and valorisation of agri-food waste

 SPECIALIZATION FIELDS:  Production processes innovation for traditional products and of animal origin  Valorisation and characterization of products of animal origin, in particular typical and registered designation products  Characterization of waste products and implementation of solutions for optimal fermentation (biogas from agri-industrial waste)

 MAIN FIELDS OF IMPACT :  Processing and transformation of meat and fruits and vegetables and dairy products; Agricultural machinery.

Terra&Acqua Tech – University of Ferrara Terra e Acqua Tech Laboratory Water & water management, soil, territory



SPECIALIZATION FIELDS:  Water quality, Characterization of ground-water, Environmental health engineering, Water distribution management, Water metallurgy and corrosion, Environmental sensing,

 Bioindication of water, Bio-geochemistry for the implementation of the nitrates directive  Electrochemical methods applied to the environment, Recovery and enhancement of vegetable by-products



MAIN FIELDS OF IMPACT :  Utility companies;  Territory management and Public utilities.

LEAP – Laboratory Energy and Environment in Piacenza Politechnic University of Milan LEAP Laboratory Energy and Environment

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SPECIALIZATION FIELDS:    



Modelling for the renewable energy sector (biomass and waste) Carbon Capture and Storage - CCS Systems for power generation and energy conversion Laboratory for boilers and heat meters certification

MAIN FIELDS OF IMPACT :  Manufacturers of boilers,  Electrical industries and oil companies

LECOP & LAERTE – ENEA National Agency for Environmental Technology LECOP Laboratory ECO-Planning: air, water and soil  SPECIALIZATION FIELDS:  Eco-innovation through the application of LCA, ecodesign and green procurement (LEI) methods  Technologies for saving, treating, re-cycling and enhancing civil, industrial and agricultural water (IDRA)  atmospheric pollution: particulate models and characterisation (QA)  FIELDS OF IMPACT: Agroindustry; Timber and furniture; Construction; Mechanics; Chemistry; Logistics; ICT and business related services LAERTE Laboratory Energy efficiency, renewable energy, sustainable mobility, heating systems conversion: research and technology transfer  SPECIALIZATION FIELDS:  Building efficiency activities, including the use of renewable energy (EDI)  Innovative applications for sustainable mobility (MOBI)  Heating systems conversion (RSR) 

MAIN FIELDS OF IMPACT FIELDS OF IMPACT: 

Any production chain, namely: Constructions, Mechanics, Logistics; Services industry.

SUPPORTO ASTER : I CP



CP    

: COORDINATORI DI PIATTAFORMA : organizza e coordina la segreteria della piattaforma tiene i contatti con i laboratori di rete Tiene il collegamento tra rete e imprese Supporta le associazioni e le imprese nella ricerca di collaborazioni di ricerca o di servizio

Enzo Bertoldi Stefano Valentini Daniela Sani Teresa Bagnoli

Lucia Mazzoni Elisabetta Toschi Cecilia Maini

Laboratori Piattaforma Costruzioni e contatti 

COORD. ASTER

Teresa Bagnoli [email protected]

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CIRI Edilizia e Costruzioni – UNIBO

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LARCOICO – ICIE

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TEKNEHUB – UNIFE

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EN&TECH - UNIMORE

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CENTRO CERAMICO



ISTEC – CNR



CERTIMAC

Marco Savoia [email protected] Pietro Andreotti [email protected] Marcello Balzani [email protected] Enrico Radi [email protected] Arturo Salomoni [email protected] Mariarosa Raimondo [email protected] Luca Laghi [email protected]

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Laboratori Piattaforma ENERGIA E AMBIENTE 

COORD. ASTER

Stefano Valentini [email protected] Daniela Sani [email protected]



CIRI ENA



PROAMBIENTE



CRPA - LAB



TERRA&ACQUA TECH



LEAP



LECOP&LAERTE

Emilio Tagliavini [email protected] Fabio Zaffagnini [email protected] Sergio Piccinini [email protected] Achille De Battisti [email protected] Alberto Sogni [email protected] Gabriele Zanini [email protected] Maria-Anna Segreto

[email protected]

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Consigli per presentazione Horizon 2020     

Partire da un progetto e dopo guardare le call Leggere con attenzione tutti i documenti della call Valutare con grande attenzione l‟IMPATTO (applicazione al mercato) Seguire con attenzione i criteri di valutazione (semplicità…) Attenzione alla completezza della proposta (progetto, partnership, subcontractors, aspetti economici,…)  Progetto in 2 steps - 1° fase – 15 pag.  Progetto completo – 60 pag

   

Fare leggere ad un referente esterno Contattare delegati nazionali e NCP Cercare anche altre opportunità (keywords) Pensare al futuro (cercare contatti all‟estero, creare cordate europee,…)

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Grazie per l’attenzione!