Sustainable Process Industries SPIRE Prparation de l a ppel 2015 - - PowerPoint PPT Presentation

Sustainable Process Industries – SPIRE Préparation de l’ appel 2015

Pierre Fiasse 4/06/2014

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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

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NCP-Wallonie

• NCP = National Contact Point

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Augmenter la participation des acteurs wallons aux programmes internationaux de recherche, développement et innovation

 12 années d’expérience  Équipe : 7 personnes

Support du NCP

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Informer Orienter Identifier et sélectionner Augmenter le taux de succès

Déterminer le programme le plus pertinent Recherche de partenaires / projets internationaux à fort potentiel Eligibilité Relecture stratégique Conseils Contacts directs Web Newsletters Conférences

H2020 : orientation innovation

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• FP6- FP7 : Transfert résultats > industries ?
• H2020 : Innovation
• Démonstrateurs – Pilotes – Up Scaling dans les projets
• Impact dans la composition du consortium

Recherche de base Phase labo/ proto Validation / Transfert

• Universités
• Centre Recherche
• Entrepr. high-tech
• Entreprises

sectorielles

• End-users
• Utilisateurs
• Universités
• Centre Recherche
• Entrepr. high-tech
• Entrepr. sectorielles

TRL 1-3 TRL 4-5 TRL 6-7

Consortium / Projet

H2020 : orientation innovation

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• 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 & financement

• Financements alternatifs
• Smart specialization : synergies/

coordination portefeuille régionaux de projets

• … Etudes de marché

Projet

• Inversément : projets

régionaux > compétitivité > intertionalisation!

H2020 : financement

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• 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%

Horizon 2020 77 028 M€ Excellent Science 24 441 M€ Societal challenges 29 679 M€ Industrial leadership 17 016 M€

KETS NMP ICT Space Biotech

Horizon 2020

• Calls NMP
• Calls PPP
• EeB
• SPIRE
• FoF (NMP + ICT)
• …

€ 900 millions EC Funding

Autres appels …

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Horizon 2020

Connus :

• Appels NMP 2015 (Mars 15)
• Appels Environnement, Energie

… JTI BBI ERA-IB EuroTransbio Eurostars : sept 14

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

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SPIRE : Sustainable Process Industries through Resource and Energy Efficiency

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

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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

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SPIRE-05: New adaptable catalytic reactor methodologies for Process Intensification RIA

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• Process intensification > reduce the number of process steps and unit
• perations
• Projects should develop new adaptable reactor concepts - redesign and merging
• f 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 …

SPIRE-06: Energy and resource management systems for improved efficiency in the process industries RIA

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• 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.

SPIRE-07-2015: Recovery technologies for metals and

• ther minerals

IA

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• 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
• ther 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

SPIRE-07-2015: Recovery technologies for metals and

• ther minerals

IA

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• Development of processes for an effective and efficient recovery of

metals and other minerals, from primary sources or from waste streams

• f 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

SPIRE-07-2015: Recovery technologies for metals and

• ther minerals

IA

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• Development of processes for an effective and efficient recovery of

metals and other minerals, from primary sources or from waste streams

• f 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

SPIRE-08 : Solids handling for intensified process technology IA

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• 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

• r (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
• perations such as catalyst recycling, solids isolation, waste treatment, or waste

prevention.

• Case studies should be included

Sustainable Industry Low Carbon II

• SILC II initiative : reduce the GHG emission intensity of manufacturing

and process industries. Proposals will preferably focus on energy- intensive industries.

• Design and development of breakthrough solutions and implementation
• f demonstration programmes, including in real industrial environments.
• The activities should run close-to-market in production plants to

demonstrate the viability of breakthrough technologies in overcoming the technological as well as non-technological barriers.

• The reduction of GHG emissions should not be achieved solely through

fuel switching. Breaktrough may combine different technologies.

• A dedicated work package should address the transferability of the

developed technologies within the sector and possibly to other sectors.

• Financement 50 % !!!

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Sustainable Industry Low Carbon II

• SILC II initiative : reduce the GHG emission intensity of manufacturing

and process industries. Proposals will preferably focus on energy- intensive industries.

• Proposals shall focus on research and innovation for the design and

development of breakthrough solutions and implementation of demonstration programmes, including in real industrial environments. The activities should run close-to-market in production plants to demonstrate the viability of breakthrough technologies in overcoming the technological as well as non-technological barriers. Proposals will address technological solutions that could have widespread applications and may combine different technologies.

• The reduction of GHG emissions should not be achieved solely through

fuel switching.

• A dedicated work package should address the transferability of the

developed technologies within the sector and possibly to other sectors.

Date 21

Sustainable Industry Low Carbon II

• SILC II initiative : reduce the GHG emission intensity of manufacturing

and process industries. Proposals will preferably focus on energy- intensive industries.

• Proposals shall focus on research and innovation for the design and

development of breakthrough solutions and implementation of demonstration programmes, including in real industrial environments. The activities should run close-to-market in production plants to demonstrate the viability of breakthrough technologies in overcoming the technological as well as non-technological barriers. Proposals will address technological solutions that could have widespread applications and may combine different technologies.

• The reduction of GHG emissions should not be achieved solely through

fuel switching.

• A dedicated work package should address the transferability of the

developed technologies within the sector and possibly to other sectors.

Date 22

Methodologie

1.

Analyse Topic

2.

Quel rôle vais-je jouer ?

• Développeur techno (R&D)
• End user
• Initiateur

3.

Comment monter (dans) un consortium

a)

Identification key players

b) Contact – expression d’intérêt c)

Initiateur – one page proposal

d) Recherches de partenaires e)

Brokerage events

f)

A-SPIRE – membership & Suchem

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• Votre propre réseau
• ALS
• NCP - Wallonie
• Mecatech
• Vous
• + Outils
• Suschem 12 Juin
• 21 Oct 14

Methodo (suite)

1.

Analyse Topic

2.

Quel rôle vais-je jouer ?

3.

Comment monter (dans) un consortium

• Convaincre ?
• Apport de valeur ajoutée
• End users
• Démonstrateurs
• Expertise pointue
• Capacité R&D
• Stratégie groupée / socle régional

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• Pôles, Centre de recherches

portefeuille FEDER (ex : CERTECH)

Montage ds consortium : NCP, Pôles, ...

• NCP, Pôles, Centres de recherches : Réseautage Wallons –

International

• NCP-Wallonie : Bases de données spécialisées, outils

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ALS : Agents de Liaisons Scientifiques - WBI

• Réseau de contacts internationaux privilégié
• Recherches de partenaires précoces
• …

Identifier des partenaires

• A-SPIRE
• Board
• http://www.spire2030.eu/about-a-spire/board-of-directors
• Members
• http://www.spire2030.eu/about-a-spire/members
• Devenir membre ! Brokerage event réguliers !
• Suschem ETP
• Acteurs R&D et industrils de l’industrie chimique, biod-industries etc
• Working groups
• http://www.suschem.org/about-suschem/organisation-and-structure/working-groups.aspx
• Brokerage event réguliers ! (pas besoin d’être membre !)

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VITO, VISION ON TECHNOLOGY

WHO IS VITO ?

• a leading European independent research centre, located in Flanders/BELGIUM;
• in the areas of cleantech and sustainable development;
• elaborating solutions for the large societal challenges of today.

More sustainable industry Reorganisation of the environment Reduce dependence on fossil fuels

SEPARATION TECHNOLOGY Membrane filtration Membrane development Solvent filtration Extraction/isolation CONVERSION TECHNOLOGY Bioconversion Electroconversion Electrode development Chemical conv.

Specialized analytics Biomass valorization and value chains

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Identifier des partenaires bases données projets FP7/ H2020

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http://cordis.europa.eu/fp7/projects_en.html

SPIRE-05: New adaptable catalytic reactor methodologies for Process Intensification RIA

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• IMPULSE - Integrated Multiscale Process Units with Locally Structured Elements, 17 M€,

2005-09, CNRS, DECHEMA, GSK, EVONIK, U Manchester

• NEPUMUC - New Eco-efficient Industrial Process Using Microstructure Unit Components,

(FP6) Fraunhofer ICT, IPA SA, …

• INCAS - Integration of Nanoreactor and multisite CAtalysis for a Sustainable chemical

production (2010-14) – INSTM (IT), TU Eindhoven, Repsol

• POLYCAT - Modern polymer-based catalysts and microflow conditions as key elements of

innovations in fine chemical syntheses, TU Eindhoven, Evonik, Bayer, EPFL, …

• SYNFLOW - Innovative Synthesis in Continuous-Flow Processes for Sustainable Chemical

Production - RWTH Aachen, Cambridge, Evonik, Uppsala

• PILLS - Process intensification methodolgies for liquid-liquid systems in structured

equipment, EPFL, …

• COPIRIDE - Combining process intensification-driven manufacture of microstructured reactors

and process design regarding to industrial dimensions and environment, INSTITUT FUER MIKROTECHNIK MAINZ , Evonik, ..

• IDECAT - Integrated Design of Catalytic Nanomaterials for a Sustainable Production >

séries acteurs potentiels

Pilot-scale internally parallelised micromixer (IMM – Germany). Tested at P&G.

SPIRE-06: Energy and resource management systems for improved efficiency in the process industries RIA

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• NMP.2011.3.2-1 Modelling and control of intensified process systems
• OPTICO – Model-Based Optimization & Control for process-intensification in chemical and

biopharmaceutical systems, CERTH, ARKEMA, DSM, TU Delft, BASF, U Gent

• MORE - Real-time Monitoring and Optimization of Resource Efficiency in Integrated

Processing Plants, INNO TSD, TU Dortmund, BASF, VTT

• COOPOL - Control and Real-Time Optimisation of Intensive Polymerisation Processes
• ENEPLAN - ENergy Efficient Process pLAnning system (manufacturing field)

SPIRE-06: Energy and resource management systems for improved efficiency in the process industries RIA

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• NMP.2011.3.2-1 Modelling and control of intensified process systems
• OPTICO – Model-Based Optimization & Control for process-intensification in chemical and

biopharmaceutical systems, CERTH, ARKEMA, DSM, TU Delft, BASF, U Gent

• MORE - Real-time Monitoring and Optimization of Resource Efficiency in Integrated

Processing Plants, INNO TSD, TU Dortmund, BASF, VTT

• COOPOL - Control and Real-Time Optimisation of Intensive Polymerisation Processes
• ENEPLAN - ENergy Efficient Process pLAnning system (manufacturing field)

New inline measurements and closed loop process control

• f high temperature processes

www.bfi.de

SPIRE-07-2015: Recovery technologies for metals and

• ther minerals

IA

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• Raw material initiative:
• RECLAIM - Reclamation of Gallium, Indium and Rare-Earth Elements from

Photovoltaics, Solid-State Lighting and Electronics Waste, TNO

• REMANENCE - Rare Earth Magnet Recovery for Environmental and Reso, urce

Protection

• EREAN - European Rare Earth Magnet Recycling Network, Umicore, Rhodia, KUL, …
• STOICISM - Sustainable Technologies for Calcined Industrial Minerals in Europe

CIDETEC

SPIRE-08 : Solids handling for intensified process technology IA

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• Acteurs potentiels comparables au Topic SPIRE 5 – partie process continu/

microreacteurs

Sustainable Industry Low Carbon II

• NMP.2012.2.1-2 Fine chemicals from CO2
• ECO2CO2 - Eco-friendly biorefinery fine chemicals from CO2 photo-catalytic

reduction- POLITO, TUDELFT, …

• CEOPS - CO2 - Loop for Energy storage and conversion to Organic chemistry

Processes through advanced catalytic Systems, CEA, GDF Suez, …

• CYCLICCO2R - Production of Cyclic Carbonates from CO2 using Renewable

Feedstocks – TNO, SINTEF, EVONIK, …

• SUNBIOPATH - Towards a better sunlight to biomass conversion efficiency in

microalgae – ULG (Pr Claire REMACLE), …

• INTERACT - INnovaTive Enzymes and polyionic-liquids based membRAnes as

CO2 Capture Technology TU Dortmund, Cidetec, Sovionic, …

• Autre appel : ISIB-6-2015: CO2 into chemicals 24/02/2015

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Sustainable Industry Low Carbon II

• NMP.2012.2.1-2 Fine chemicals from CO2
• ECO2CO2 - Eco-friendly biorefinery fine chemicals from CO2 photo-catalytic

reduction- POLITO, TUDELFT, …

• CEOPS - CO2 - Loop for Energy storage and conversion to Organic chemistry

Processes through advanced catalytic Systems, CEA, GDF Suez, …

• CYCLICCO2R - Production of Cyclic Carbonates from CO2 using Renewable

Feedstocks – TNO, SINTEF, EVONIK, …

• SUNBIOPATH - Towards a better sunlight to biomass conversion efficiency in

microalgae – ULG (Pr Claire REMACLE), …

• INTERACT - INnovaTive Enzymes and polyionic-liquids based membRAnes as

CO2 Capture Technology TU Dortmund, Cidetec, Sovionic, …

• Autre appel : ISIB-6-2015: CO2 into chemicals 24/02/2015

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www.bfi.de

Sustainable Industry Low Carbon II

• NMP.2012.2.1-2 Fine chemicals from CO2
• ECO2CO2 - Eco-friendly biorefinery fine chemicals from CO2 photo-catalytic

reduction- POLITO, TUDELFT, …

• CEOPS - CO2 - Loop for Energy storage and conversion to Organic chemistry

Processes through advanced catalytic Systems, CEA, GDF Suez, …

• CYCLICCO2R - Production of Cyclic Carbonates from CO2 using Renewable

Feedstocks – TNO, SINTEF, EVONIK, …

• SUNBIOPATH - Towards a better sunlight to biomass conversion efficiency in

microalgae – ULG (Pr Claire REMACLE), …

• INTERACT - INnovaTive Enzymes and polyionic-liquids based membRAnes as

CO2 Capture Technology TU Dortmund, Cidetec, Sovionic, …

• Autre appel : ISIB-6-2015: CO2 into chemicals 24/02/2015

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www.bfi.de

Recherches de partenaires …

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Outils : Expression d’intérêt

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• Rapidité
• Qualité
• « marketing »
• E-Mail
• ou doc attach

Outils : One page proposal &/or Partner search

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Effet structurant Autres outils:

• Matrice de compétence
• MoU

Conclusions

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Participation à l’appel 2015 : now

• Topics : Identifier et se positionner
• Identifier et contacter partenaires étranger

Merci de votre attention

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Orientation H2020 : Innovation

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Métrique : Technology Readiness Levels

• 1 – Basic Research
• 2 – Technology concept
• 3 – Proof of Concept
• 4 – Technology validation in laboratory
• 5 – Validation in relevant environment
• 6 – Demonstration in relevant environment
• 7 – Demonstration in operational environment
• 8 – System complete and qualified
• 9 - Deployment