Sustainable Process Industries – SPIRE Préparation de l’ a ppel 2015 Pierre Fiasse 4/06/2014 1
Objectifs du workshop Appel SPIRE 2015 77 M € 4 “ Topics ” ouverts, publiés Deadline : le 9 décembre 2014 Consortium : avant le break de l’été ! Actions aujourd’hui pour participer à cet appel ! Appel SILC II 2014 20 M € 1 “ Topics ” ouvert, publié Deadline : 2 sept 2014 2
NCP-Wallonie NCP = National Contact Point Augmenter la participation des acteurs wallons aux programmes internationaux de recherche, développement et innovation 12 années d’expérience Équipe : 7 personnes 3
Support du NCP Augmenter le Informer Orienter Identifier et taux de succès sélectionner Recherche de Déterminer le Eligibilité Contacts directs partenaires / programme Relecture Web projets le plus pertinent stratégique Newsletters internationaux Conseils Conférences à fort potentiel 4
H2020 : orientation innovation FP6- FP7 : Transfert résultats > industries ? H2020 : Innovation Démonstrateurs – Pilotes – Up Scaling dans les projets Impact dans la composition du consortium Recherche Phase Validation / de base labo/ proto Transfert TRL 6-7 TRL 1-3 TRL 4-5 • Universités • Universités • Entreprises sectorielles • Centre Recherche • Centre Recherche • End-users • Entrepr. high-tech • Entrepr. high-tech Utilisateurs • • Entrepr. sectorielles Consortium / Projet 5
H2020 : orientation innovation FP6- FP7 : Transfert résultats > industries ? H2020 : Innovation Démonstrateurs – Pilotes – Up Scaling dans les projets Impact dans la composition du consortium Stratégie de transfert : nouveautés A B C … Décrire la période après Projet projet & financement Financements alternatifs Smart specialization : synergies/ coordination portefeuille régionaux de projets Inversément : projets régionaux > compétitivité > … Etudes de marché intertionalisation! 6
H2020 : financement Type de projets Min 3 pays EU Projets 5-8 M € , 5 -15 partenaires Financement : Commission RIA - Research & Innovation Action : 100% IA - Innovation Action : 70% (100% Non Profit) Overheads : 25% 7
Horizon 2020 Horizon 2020 77 028 M € Excellent Industrial Societal Science leadership challenges 24 441 M € 17 016 M € 29 679 M € KETS NMP ICT Space Calls NMP Biotech Calls PPP EeB € 900 millions EC Funding SPIRE FoF (NMP + ICT) …
Autres appels … Horizon 2020 Connus : ERA-IB Appels NMP 2015 (Mars 15) EuroTransbio • • Appels Environnement, Energie Eurostars : sept 14 … JTI BBI 9
SPIRE : Sustainable Process Industries through Resource and Energy Efficiency Redynamiser l’industrie du process, contribuer aux enjeux sociétaux (CO2, …), découpler impact croissance économique sur les ressources 10
SPIRE : Sustainable Process Industries through Resource and Energy Efficiency 11
SPIRE : Sustainable Process Industries through Resource and Energy Efficiency Impacts quantitatifs (2030) ↘ fossil energy intensity of up to 30% ↘ non-renewable, primary raw material intensity of up to 20% ↗ Efficiency CO2 – equivalent footprint up to 40% Leveraging additional investments 12
SPIRE • 2014-2020 : 900 M € • http://www.spire2030.eu/ • SPIRE Association : A-SPIRE • 70 acteurs industriels/ recherche • Secteurs : chimie, acier, ciment, métaux NF, céramique, eau, engineering, minéraux • Belges bien présents : CMI, ArcelorMittal, CRM Group, Solvay, Vito • H2020 2014 : • premier appel à projet • 35 Millions € • clôturé 13
SPIRE-05: New adaptable catalytic reactor methodologies for Process Intensification RIA Process intensification > reduce the number of process steps and unit operations Projects should develop new adaptable reactor concepts - redesign and merging of critical reaction steps and subsequent process steps, such as separation and work-up or by allowing new operating windows (HT ° , HPressure , …) that are not accessible using conventional equipment. Projects should include the design of the corresponding reactor equipment, in close co-operation of the engineering and equipment manufacturing sectors with process industries. Expected impact: ↘15% process energy intensity ↘15% in emissions wrt state of the art ↗Flexibility, productivity … 14
SPIRE-06: Energy and resource management systems for improved efficiency in the process industries RIA Sharing resources (e.g. plants, energy, water, residues and recycled materials) through the integration of multiple production units of a single company or multiple companies on a single industrial production site → Sustainability ↗ Scope : integration into a single management system of all these environmental, energy and economic factors Analysis and optimisation tools for flexible energy use and material flow integration ( holistic approach for resource management in process industries) New approaches that perform cost-saving optimisation of energy and resources supply and demand, in order to reduce the residues and costs in intensive industries, taking into consideration both economical and sustainability constraints. Standards-based software for measuring critical footprint issues and relevant data used into the daily routine of the plants/clusters will be developed. Rapid transfer from lab-scale and conceptual design into testing at demonstration sites Prototypes and pilot implementations in real industrial settings represent a clear added-value. 15
SPIRE-07-2015: Recovery technologies for metals and other minerals IA Metals and other minerals (non-ferrous and ferrous metals, ceramics, glass, cement and chemicals) are utilised in numerous applications in many industrial sectors. Their demand, in particular those used in specialised applications, will increase in the coming years. Development of processes for an effective and efficient recovery of metals and other minerals, from primary sources or from waste streams of the current industrial processes Scope: new approaches combining several existing techniques (e.g. precipitation, adsorption, extraction, physical or biological treatment and separation) or new alternative solutions The projects selected under this topic are expected to carry out demonstration activities in industrial environments 16
SPIRE-07-2015: Recovery technologies for metals and other minerals IA Development of processes for an effective and efficient recovery of metals and other minerals, from primary sources or from waste streams of the current industrial processes Scope: new approaches combining several existing techniques (e.g. precipitation, adsorption, extraction, physical or biological treatment and separation) or new alternative solutions The projects selected under this topic are expected to carry out demonstration activities in industrial environments 17
SPIRE-07-2015: Recovery technologies for metals and other minerals IA Development of processes for an effective and efficient recovery of metals and other minerals, from primary sources or from waste streams of the current industrial processes Scope: new approaches combining several existing techniques (e.g. precipitation, adsorption, extraction, physical or biological treatment and separation) or new alternative solutions The projects selected under this topic are expected to carry out demonstration activities in industrial environments 18
SPIRE-08 : Solids handling for intensified process technology IA Process intensification > continuous, miniaturized The use of highly intensified, miniaturized equipment is largely restricted to gas/liquid and liquid/liquid systems, while most processes applied in the chemical and pharmaceutical industry, as well as industries processing steel, glass, cement, non-ferrous metals, or minerals, involve solids as reactants, catalysts, intermediates or (by-)products. If these processes are to be transferred to intensified process equipment, it is likely that difficulties associated with the presence of particulate solids will be encountered, such as fouling or blockages. Scope: Methods should be developed for the handling of solids in continuous production units. Via either the miniaturization of currently available devices or by completely new approaches to the processing of solids. Projects should apply a holistic approach towards relevant processes in which solids are an intrinsic part. The whole process design should be considered, in particular downstream processing operations such as catalyst recycling, solids isolation, waste treatment, or waste prevention. Case studies should be included 19
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