Folie 1

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NEW MATERIALS FOR ENERGY SYSTEMS NewMat Light
house InnoDriver co-ordinator Prof. Aleksandra
Czyrska- Filemonowicz deputy Dr Beata
Dubiel project manager Paulina Pytel Faculty
of Metals Engineering and Industrial Materials
Science International Centre of Electron
Microscopy for Materials ScienceAGH University
of Science and TechnologyKraków, Poland
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KIC InnoEnergy CC Poland Plus Thematic Meeting,
11-12.04.2011
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Outline

• Partners
• Idea and context
• Way and time to market
• Work Packages Innovation, Research Technology,
  Education
• Expected results, Products
• Present status and plan for 2011

New Materials for Energy Systems - NewMat
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KIC InnoEnergy CC Poland Plus Thematic Meeting,
11-12.04.2011
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Partners from 5 CCs
1 AGH- UST AGH University of Science and Technology CC Poland Plus University
2 UJ Jagiellonian University CC Poland Plus University
3 BZF Bay Zoltán Foundation for Applied Research CC Poland Plus Research Technology
4 IFK University of Stuttgart CC Germany University
5 KTH Royal Institute of Technology CC Sweden University
6 UU Uppsala University CC Sweden University
7 INP Grenoble Institute of Technology CC Alps Valleys University
8 IST Instituto Superior Técnico Lisboa CC Iberia University
9 ABB CC Sweden Industry
10 EDP Energias de Portugal, SA CC Iberia Industry
11 EDF Électricité de France KIC level partner Industry
12 RAFAKO Rafako S.A CC Poland Plus Industry
New Materials for Energy Systems - NewMat
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Partners from 5 CCs
CC Benelux
CC Sweden UU KTH ABB
CC Poland Plus AGH-UST UJ BZF RAFAKO
CC Iberia IST EDP
CC Germany IFK
CC Alps Valley INP EDF
New Materials for Energy Systems- NewMat
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Idea and context
NewMat project concerns the implementation of new
materials for enhancement of the existing- and
introduction of innovative technologies of energy
production. New materials with improved
properties will increase performance and
efficiency of clean energy production, but also
contribute to cost savings. NewMat offers
complex multi-disciplinary research, technology
and education based on horizontal- and visionary
concepts to solve the materials problems defined
by industry. The expected outcomes include new
products launched to the market and new business
creation. Finally, the plan for the future
business exploitation the results will be
developed.
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Way and time to market
In general, medium-term commercialization is
expected some rapid commercialization is
possible. Duration of the result from the
project to reach the market is defined for each WP
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WORK PACKAGES (Innovation, RT, Education)

• WP0 Market analysis and business opportunities
• WP1 Materials for high efficiency
  zero-emission fossil fuel power plants
• WP2 Advanced materials for clean coal
  technologies
• WP3 Materials for nuclear power plants (HTR,
  LWR)
• WP4 Materials for renewable energy storage and
  conversion systems (fuel cells, Li-ion
  batteries, photovoltaics, photoelectrochemical
  cells)
• WP5 Membranes for energy production
• WP6 Smart grids materials
• WP7 Development of characterisation and
  modelling methods of power
• plant components made from innovative
  materials
• WP8 Education on materials for energy systems
• WP9 Project Coordination and Promotion
• WP10 Exploitation Plan

New Materials for Energy Systems - NewMat
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WP0 Market analysis and business opportunities

• WP0 leader AGH-UST (Dr Tomasz Moskalewicz)
• WP0 force
• UJ, IFK, KTH, UU, IST, INP (Education),
• ABB, EDP, EDF, RAFAKO (Industry),
• BZF (Research)
• Task 0.1. Market survey (global, EU or Local
  markets) markets sizing, potential customers
  definition, suppliers, entry barriers,
  competitors analysis AGH-UST, ALL
• Task 0.2. Legal and regulatory issues AGH-UST,
  ALL
• Task 0.3. Internal analysis of capabilities and
  resources AGH-UST, ALL

• Outcome of a market survey
• Economic impact
• Portfolio of business opportunities
• Internal development capabilities plan

New Materials for Energy Systems - NewMat
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WP0 Market analysis and business opportunities
WORK PACKAGE responsible delivered
WP1 Materials for high efficiency zero-emission fossil fuel power plants AGH-UST / INDUSTRY Q3 2011
WP2 Advanced materials for clean coal technologies AGH-UST / INDUSTRY Q3 2011
WP3 Materials for nuclear power plants INP / INDUSTRY Q3 2011
WP4 Materials for renewable energy storage and conversion systems (fuel cells, Li-ion batteries, photovoltaics, photoelectrochemical cells) AGH-UST / INDUSTRY Q3 2011
WP5 Membranes for energy production IST / INDUSTRY Q3 2011
WP6 Smart grids materials BZF / INDUSTRY Q3 2011
New Materials for Energy Systems - NewMat
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WP1-6 Research Technology
WP1 Materials for high efficiency
zero-emission fossil fuel power plants WP2
  Advanced materials for clean coal
technologies WP3   Materials for nuclear power
plants WP4   Materials for renewable energy
storage and conversion systems (fuel cells,
Li-ion batteries, photovoltaics,
photoelectrochemical cells) WP5   Membranes for
energy production WP6   Smart grids materials
  The market watch for development of
materials for energy systems will be done
together with an internal analysis of the
evolution of business opportunities
New Materials for Energy Systems- NewMat
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WP1 Materials for high efficiency
zero-emission fossil fuel power plants

• WP1 leader AGH-UST (Prof. Aleksandra
  Czyrska-Filemonowicz)
• WP1 force
• AGH-UST, IFK, UU (Education)
• EDF, RAFAKO (Industry)
• Task 1.1. Development of modified martensitic
  9-12 Cr steels with improved creep- and
  oxidation
• resistance AGH-UST, EDF
• Task 1.2. Design and characterization of new
  Ni-base superalloys to replace 9-12 Cr steels in
  advanced
• steam turbines at ultra-supercritical
  conditions AGH-UST, EDF
• Task 1.3. Impact of deposits on corrosion
  mechanisms and material resistance (flue gas
  side) by laboratory
• and field exposure tests. Variable coal
  qualities, material temperatures (600 -650 C),
  gas components
• (SO2, HCl, O2, H2O) IFK, EDF
• Task 1.4. Design of functional surfaces and
  coatings for reduction of emissions from fossil
  fuel plants, UU,
• AGH-UST, EDF

New Materials for Energy Systems - NewMat
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WP1 Materials for high efficiency
zero-emission fossil fuel power plants

• WP1 is focused on new materials with improved
  creep- and oxidation resistance
• new (modified) martensitic 9-12 Cr steels
  (with/without coatings), austenitic steels,
• Ni-base superalloys.
• The research activities will cover
• characterisation of micro/nanostructure and
  properties of new materials,
• tailoring materials microstructure for desired
  properties.
• design by modelling and processing of new
  materials (steels, superalloys,coatings,),
• optimisation, verification, application

• WP1 Products
• Modified martensitic steels with 100 000 hour
  rupture strength of 100 MPa at 650C (month 24)
  AGH-UST
• New Ni-based superalloys tailored to reduce
  their thermal expansion coefficients to the level
  of 12 Cr steels (month 30) AGH-UST
• New Ni-base superalloys with increased tensile
  strength in temperature range 20-700C, (month
  36) AGH-UST
• Results of fire side oxide scale formation and
  corrosion resistance tests of modified new
  martensitic 9-12 Cr steels and Ni-base
  superalloys (month 22) IFK
• Functional coatings and surface design for
  optimized oxidation and mechanical properties
  (month 36) UU

New Materials for Energy Systems- NewMat
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WP2Advanced materials for clean coal
technologies

• WP2 leader IFK (Jorg Maier, MSc.)
• WP2 force
• IFK, AGH-UST, UU (Education)
• Task 2.1. Characterization of single crystal
  nickel-base superalloys, both with and without
  coatings, for
• combined gas turbine-steam cycle, using routine
  and advanced analytical techniques AGH-UST
• Task 2.2. Identification of damage and
  degradation mechanisms of the new alloys and
  coating systems  for
• turbine blades exposed in coal syngas AGH-UST
• Task 2.3. Novel membrane materials UU, AGH-UST
• Task 2.4. Field and laboratory material exposure
  test to evaluate carburization effects in and
  below the
• oxide scales and the role of hard coal and
  lignite related deposits IFK, AGH-UST
•  

New Materials for Energy Systems - NewMat
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WP2Advanced materials for clean coal
technologies

• WP2 is focused on
• characterization of materials for combined gas
  turbine - steam cycle using routine and
  advanced analytical techniques,
• identification of damage and degradation
  mechanisms of the new materials exposed in coal
  syngas, oxyfuel, post combustion and other
  technologies,
• membrane materials for CO2 separation in coal
  gasification combined cycle.

• WP2 Products
• Identification of damage and degradation
  mechanisms of the new materials exposed in coal
  syngas environment (month 36) AGH-UST
• Availability and testing of temperature
  controlled material exposure probe (prototype)
  (month 36) IFK
• Advanced material development by laboratory and
  field exposure tests (month 36) IFK

New Materials for Energy Systems- NewMat
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WP3 Materials for nuclear power plants (HTR, LWR)

• WP3 leader INP (Prof. Yves Brechet)
• WP3 force
• INP, AGH-UST, UU (Education)
• EDF (Industry)
• Task 3.1. Microstructure and creep properties
  examination of martensitic - and ODS steels for
  application
• at supercritical water environment in Low
  Temperature Water-cooled Reactors (LWR) INP,
  AGH-UST, EDF
• Task 3.2. Improving capabilities of advanced
  materials for Intermediate Heat Exchangers (IHX)
  system in
• nuclear reactors INP, AGH-UST
• Task 3.3. Investigation of helium bubble
  formation (He embrittlement/swelling, creep) in
  Ni-base
• superalloys for High Temperature Reactors (HTR)
  INP, AGH-UST
• Task 3.4. Development of high temperature,
  corrosion resistant surface and materials, UU,
  AGH-UST, INP

New Materials for Energy Systems - NewMat
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WP3 Materials for nuclear power plants (HTR, LWR)

• Potential degradation mechanisms for nuclear
  power plant components include irradiation
  embrittlement, void swelling and irradiation
  creep- and stress corrosion cracking.
• High temperature reactors (HTR)
• helium bubble formation (He embrittlement/swelli
  ng, creep) in Ni-base alloys,
• improving capabilities of advanced oxide
  dispersion strengthened (ODS) alloys for heat
  exchangers
• modified 9-12 Cr martensitic steels
• Low temperature water cooled reactors (LWR)
  require qualification of materials that
  experience both elevated temperature and
  radiation exposure and survive the hostile
  supercritical water environment
• 9-12 Cr martensitic steels
• low- swelling variants of austenitic stainless
  steels,
• ODS steels.

• WP3 Products
• Determination of corrosion mechanisms of ODS
  alloys (month 24) AGH-UST
• Determination of creep resistance and creep
  mechanisms of new materials for nuclear power
  plants
• (month 36) AGH-UST
• 3. Model of swelling in relation with the
  presence of intrinsic sinks such as martensite
  laths (month 36) AGH-UST, INP
• 4. Alternative graded materials for combined
  oxidation/creep resistance (month 36) UU,
  AGH-UST, INP

New Materials for Energy Systems- NewMat
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WP4Materials for renewable energy storage and
conversion systems (fuel cells, Li-on batteries,
photovoltaics, photoelectrochemical cells)

• WP4 leader AGH- UST (Prof. Janina Molenda)
• WP4 force
• AGH-UST, UJ, UU, IST (Education)

Task 4.1. Materials for high efficiency fuel
cells Sub-task 4.1.1. Development of intermediate
temperature solid oxide fuel cells (IT-SOFCs)
which may operate with liquid fuels
(hydrocarbons, methanol) AGH-UST, UJ,
EDF Sub-task 4.1.2. Improvement of oxidation
resistance of metal interconnects for Solid Oxide
Fuel Cell Power System AGH-UST, IST,
EDF Sub-task 4.1.3. Development of new fuel
cells electrodes for DMFC IST, EDF Task 4.2.
Materials for high energy density Li-ion
batteries Sub-task 4.2.1. Development of safe and
efficient electrode materials for safe energy
storage systems based on Li-ion batteries for
high power application UJ, AGH-UST Sub-task
4.2.2. Development of paper battery UU Task
4.3. Materials for solar energy
conversion Sub-task 4.3.1. Materials for
photo-electrochemical solar cell (PEC) AGH-UST,
EDF Sub-task 4.3.2. Materials for photovoltaics
Sub-task 4.3.2. a. Materials and structures for
photovoltaic AGH-UST Sub-task 4.3.2. b.
Materials for solar energy control AGH-UST
Sub-task 4.3.2. c. Materials for photosensitized
solar energy conversion UJ, AGH-UST
New Materials for Energy Systems - NewMat
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WP4Materials for renewable energy storage and
conversion systems (fuel cells, Li-on batteries,
photovoltaics, photoelectrochemical cells)

• Development of materials for renewable energy is
  needed for better use of natural resources in
  production of green power. The investigation of
  innovative materials involve
• materials for high efficiency fuel cells (SOFC)
• materials for high energy density Li- ion
  batteries
• materials for solar energy conversion

Li-ion batteries
SOFC
Photovoltaics
New Materials for Energy Systems- NewMat
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WP4Materials for renewable energy storage and
conversion systems (fuel cells, Li-on batteries,
photovoltaics, photoelectrochemical cells)
WP4 Main Products 1. Functional ceria electrolyte
for IT-SOFC (month 12) AGH-UST 2. Development
of anode materials (based on CeO2) active for
hydrocarbons for IT-SOFC (month 20) UJ 3.
Improved perovskite cathode material for IT-SOFC
(month 24) AGH-UST 4. Development of an optimal
method of deposition of rare-earth element oxides
on interconnectors (month 36) AGH-UST 5. New
spinel coatings with improved lifetime (month
36) IST 6. New materials for fuel cells DMFC
(month 36) IST 7. Development of safe and
efficient cathode materials based on transition
metal compounds for Li-ion batteries (month
12) AGH-UST 8. Development of anode materials
based on tin or silicon for Li-ion batteries
materials optimization (month 24) UJ 9.
Development of safe, high performance electrode
nanocomposites for Li-ion batteries taking
advantage of CCL innovation (30 month)
UJ, AGH-UST 10. Development of safe, high
capacity, paper and polymer based cathode
materials for Li ion batteries (month 24)
UU 11. New materials based on TiO2 for electrodes
in PEC (month 12) AGH-UST 12. Demonstration of
the effective photo-electrochemical cell (PEC)
for water splitting (month 36) AGH-UST 13.
Determination of the optimal manufacturing
procedure for the solar electrode on the
production scale (month 36) AGH-UST 14.
Demonstration of solar cell prototype of enhanced
efficiency (month 15) AGH-UST 15. Demonstration
of solar control system (month 24) AGH-UST 16.
Demonstration of unified system of photovoltaic
solar control (month 36) AGH-UST 17.
Determination of optimal formulations and working
conditions for photocatalytic and photovoltaic
applications (month 36) UJ,
AGH-UST 18. Patent application on optimized
synthesis of photoactive materials/coatings
(month 36) UJ, AGH-UST
New Materials for Energy Systems- NewMat
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WP5 Membranes for sustainable energy devices

• WP5 leader IST (Prof. Joao Moura Bordado)
• WP5 force
• IST, IFK, UU (Education)
• EDP, EDF (Industry)
• Task 5.1. Development of new polymeric membranes
  IST
• Task 5.2. Materials for energy generation from
  biomass and bio-residues IFK, EDF
• Task 5.3. Low friction surfaces and materials for
  energy efficiency UU

New Materials for Energy Systems - NewMat
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WP5 Membranes for sustainable energy devices

• The investigation and development of new
  membranes will results in their application in
  sustainable energy systems
• WP5 Products
• New process for membranes production and report
  on correlations for permeability (month 35) IST
• New macromolecular structures for the selective
  layer (month 36) IST
• Materials for energy generation from biomass and
  bio-residues IFK, EDF
• Low friction surfaces and materials for energy
  efficiency UU

New Materials for Energy Systems- NewMat
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WP6 Smart grids materials

• WP6 leader BZF
• WP6 force
• AGH-UST (Education)
• EDF (Industry)
• BZF (Research)
• Task 6.1. New nanomaterials for gas sensors
  AGH-UST 
• Task 6.2. Development of carbon fiber reinforced
  Al-matrix composites for electric cables BZF
• Task 6.3. Materials with high dielectric
  permittivity EDF
• Task 6.4. Anisotropic materials and functionally
  graded materials UU, KTH, ABB
• Task 6.5. New nanomaterials for gas sensors
  AGH-UST
• Task 6.6. Development of carbon fiber reinforced
  Al-matrix composites for electric cables BZF
• Task 6.7. Materials with high dielectric
  permittivity EDF

New Materials for Energy Systems - NewMat
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WP6 Smart grids materials
The project area focuses on materials designed
for the future smart grid and storage
technologies that facilitate step-changes in
performance and life time of components.

• WP6 Products
• 1. Development, processing and characterisation
  of new nanomaterials for gas sensors (month 36)
  AGH-UST
• 2. The successful penetration of the space
  between the carbon fibers by liquid Al (month
  12) BZF
• 3. Successful transfer of carbon fibers from
  molten salt into liquid Al (month 24) BZF
• 4. Laboratory prototype (month 36) BZF
• 5. Determination of microscopic and nanometric
  properties of nanocomposites with high dielectric
  response (month 36) EDF

New Materials for Energy Systems- NewMat
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WP7Development of characterisation-and modelling
methods of components made from innovative
materials

• WP7 leader AGH-UST (Dr Beata Dubiel)
• WP7 force
• AGH-UST, UU, INP (Education)
• EDF (Industry)
• Task 7.1. Development of analytical electron
  microscopy methods for characterisation of
  materials for energy systems AGH-UST, EDF
• Task 7.2. Development of electron tomography
  methods for 3D quantitative characterisation of
  materials microstructure AGH-UST
• Task 7.3. DFT modelling of novel material
  concepts UU
• Task 7.4. Microstructure based creep modelling of
  ODS steels INP, AGH-UST

New Materials for Energy Systems - NewMat
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WP7Development of characterisation-and modelling
methods of components made from innovative
materials

• New methods of characterization- and modelling
  address
• microstructural characterization down to a
  nano-scale,
• measurements of desired properties,
• modelling,
• monitoring
• life-time prediction.
• WP7 Products
• Protocols of quantitative microstructural
  analysis by means of analytical electron
  microscopy (month 12) AGH-UST
• Procedures of quantitative mapping of materials
  chemical composition in micro- and nano scale by
  STEM-EDS and STEM-EELS methods (month 36)
  AGH-UST
• Elaboration of procedures of electron tomography
  for 3D quantitative microstructural analysis of
  nanoparticles (month 24) AGH-UST
• DFT models connected to analytical electron
  microscopy and combinatorial design UU
• Method for coupling intergranular and
  intragranular creep with cavity growth in order
  to predict the creep curve as a function of the
  microstructure (month 36) INP, AGH-UST

New Materials for Energy Systems- NewMat
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WP8Education on materials for energy systems

• WP8 leader AGH-UST (Prof. Aleksandra
  Czyrska-Filemonowicz)
• WP8 force
• AGH-UST, UJ, IFK, KTH, UU, IST, INP (Education)
• ABB, EDP, EDF, RAFAKO (Industry)
• BZF (Research)
• Task 8.1. Joint PhD students investigating new
  materials for clean energy systems ALL
• Task 8.2. Teachers and students mobility ALL
• Task 8.3. Industry-driven professional courses
  and students practices ALL
• Task 8.4. Course program on innovation and
  entrepreneurship within materials ALL
• Task 8.5. Workshop on smart materials for
  hydrogen and renewable energy AGH-UST
• Task 8.6. Summer schools on recent and future
  developments in innovative materials and
  technologies
• for clean energy AGH-UST, ALL
•  Task 8.7. Academia and industry driven Workshops
  on Sustainable Energy AGH-UST, ALL

New Materials for Energy Systems - NewMat
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WP8Education on materials for energy systems

• WP8 Products
• 3 PhD students starting in 2011
• - 1 PhD student started at CC Poland Plus
  (AGH-UST Prof. Czyrska-Filemonowicz)
• and CC Alps Valleys (INP, Prof.
  Brechet)
• - 1 industry-driven PhD (RAFAKO,
  AGH-UST and ?)
• - 1 PhD research in negociation
• 2. 10 students/year inserted in the labour
  market
• Knowledge dissemination
• 3. SET Plan Workshop on Smart Materials for
  Hydrogen and Renewable Energy,
• 29-30.11.2011, Waszawa AGH-UST (Prof. J.
  Molenda)
• 4. Summer School on Materials for high
  efficiency zero-emission fossil fuel power
  plants
• (month 20) AGH-UST, ALL
• Workshop on Meso-, micro- and nanostructure
  characterisation of innovative materials for
• clean energy (month 30) AGH-UST, ALL

New Materials for Energy Systems- NewMat
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WP9Project Coordination and Promotion

• WP9 leader AGH-UST (Prof. Aleksandra Czyrska-
  Filemonowicz)
• WP9 force
• AGH-UST, UJ, IFK, KTH, UU, IST, INP (Education)
• ABB, EDP, EDF, RAFAKO (Industry)
• BZF (Research)
• Task 9.1. Coordination of the NewMat project
  AGH-UST
• Task 9.2. Organisation of the annual meetings
  AGH-UST
• Task 9.3. Organisation of the Governance Board
  meetings AGH-UST
• Task 9.3. Promotion of the NewMat project AGH-UST

New Materials for Energy Systems - NewMat
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WP 10 Exploitation plan

• WP10 leader AGH-UST (Dr Tomasz Moskalewicz)
• WP10 force
• AGH-UST, UJ, IFK, KTH, UU, IST, INP (Education)
• ABB, EDP, EDF, RAFAKO (Industry)
• BZF (Research)
• In order to commercialize and exploit the
  business opportunity of demonstration and
  application of New Materials in pilot
  components/plants,
• business models and business plans for
  technology, product, service, new ventures,
  will be defined.
• Task 10.1. Preparation of business models and
  business plans for
• technology/product/service for
  WP1-WP7 AGH-UST, ALL
• Task 10.2. Preparation of patent applications
  AGH-UST, ALL

New Materials for Energy Systems - NewMat
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SCHEDULE 2011
  2011 2011 2011 2011
Task/Milestones Q1 Q2 Q3 Q4
T0.1        
M0.1 Market watch (month 6, AGH-UST, all)   X X 
T0.2        
T0.3        
M0.3 Internal analysis (month 10, AGH-UST, all)       x
T1.1        
T1.2        
M1.1 Documentation of the microstructure and properties of modified martensitic 9-12 Cr (month 12) AGH-UST, EDF        x
T1.3        
M1.6 Appling and testing of fire-side corrosion test apparatus for advanced materials (month 12) IFK, EDF       x
T1.4        
T2.1        
M2.1 Documentation of the microstructure and creep properties of Ni-base superalloys for industrial gas coatings (month 12) AGH-UST       x
T2.2        
T2.3        
T2.4        
 T3.1        
 T3.2        
T3.3        
T3.4        
M3.1 Microstructural analysis and creep tests of selected materials for nuclear power plants (month 12) AGH-UST, EDF       x
New Materials for Energy Systems - NewMat
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SCHEDULE 2011
  2011 2011 2011 2011
Task/Milestones Q1 Q2 Q3 Q4
T4.1        
M4.1.1.1 Functional ceria electrolyte for IT-SOFC (month 12) AGH-UST       x
M4.1.2.1 The comparison of the efficiency of various rare-earth element oxides (month 12) AGH-UST       x
T4.2        
M4.2.1.1 Development of safe and efficient cathode materials (month 12) AGH-UST       x
T4.3        
M4.3.1.1 New materials based on TiO2 for electrodes in PEC (month 12) AGH-UST       x
M4.3.2.a1 Optoelectronic characteristics of multilayer structure (month 12) AGH-UST       x
M4.3.2.c1 Verification of synthesis and activity of the most promising systems (month 12) UJ-AGH-UST       x
T5.1        
T5.2        
T5.3        
T6.1        
M6.1 Road map (month 6) UU, KTH, ABB   x    
T6.2        
M6.2 RT plan (month 9) UU, KTH, ABB     x  
T6.3        
T6.4        
T6.5        
T6.6        
M6.4 The successful penetration of the space between the carbon fibers by liquid Al (month 12) BZF       x
T6.7        
New Materials for Energy Systems - NewMat
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SCHEDULE 2011
  2011 2011 2011 2011
Task/Milestones Q1 Q2 Q3 Q4
T7.1        
M7.1 Protocols of quantitative microstructural analysis by means of analytical electron microscopy (month 12) AGH-UST       x
T7.2        
T7.3        
T7.4        
T8.1        
T8.2        
T8.3        
T8.4        
T8.5        
M8.3 Workshop on Smart materials for hydrogen and renewable energy (month 11) AGH-UST       x
T8.6        
T8.7        
T9.1        
T9.2        
T9.3        
T9.4        
M9.1 GB meeting held (month 6) AGH-UST   x    
M9.2 GB meeting and Y1 meeting held (month 12) AGH-UST, All       x
T10.1        
M10.1 Elaboration of business models and plans (month 12), AGH-UST       x
T10.2        
M10.2 Preparation of patent application (month 12) ,AGH-UST       x
New Materials for Energy Systems - NewMat
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WORKPACKAGE ORGANIZATION
New Materials for Energy Systems - NewMat
34
BUDGET 2011 DISTRIBUTION PER PARTNERS (vs.
ORGANIZATION TYPE)
ORGANIZATION TYPE
New Materials for Energy Systems - NewMat
35
BUDGET 2011 DISTRIBUTION PER PARTNERS (vs.
PARTNER STATUS)
New Materials for Energy Systems- NewMat
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EXPECTED PRODUCTS (proposal)

• Number of patents - 2
• Number of products and services launched on
  the market 7
• Number of new companies 2
• Number of students inserted in the labour
  market per year 10
• Number of formal partners 10
• Number of technology transfer activities 2
• Number of PhD theses 3
• Number of scientific papers -25
• Number of schools/workshops 10

New Materials for Energy Systems- NewMat
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KIC InnoEnergy CC Poland Plus Thematic Meeting,
11-12.04.2011
37
Project summary market data
MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA MASTER DATA
Topical Area Topical Area New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems New Materials for Energy Systems
Project type RD / pilot / demonstration Project type RD / pilot / demonstration RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD RD
Project Duration Project Duration 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years 7 years
Project manager Project manager Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz Prof. Aleksandra Czyrska-Filemonowicz
Total Budget (K) Total Budget (K) 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802 3 994 802
Total KIC request (K) Total KIC request (K) 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366 1 055 366
PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA PARTNERS DATA
CC CC CC CC CC CC Typology Typology Typology Typology (Rough) TOTAL budget split
Partners name Partners name Partners name Partners name Partners name Partners name Partners name Ger Pol Swe Ben Fra Ibe Res Uni Ind Oth (Rough) TOTAL budget split
1 AGH-UST AGH-UST AGH-UST AGH-UST AGH-UST AGH-UST   x           x   47,54
2 UJ UJ UJ UJ UJ UJ   x           x     10,01
3 BZF BZF BZF BZF BZF BZF   x         x       2,5
4 IFK IFK IFK IFK IFK IFK x             x     6,84
5 KTH KTH KTH KTH KTH KTH     x         x     2,4
6 UU UU UU UU UU UU     x         x     4,51
7 ABB ABB ABB ABB ABB ABB     x           x   0,63
8 IST IST IST IST IST IST           x   x     7,3
9 EDP EDP EDP EDP EDP EDP           x     x   0
10 INP INP INP INP INP INP         x     x     1,67
11 EDF EDF EDF EDF EDF EDF         x        x   16,6
MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA MARKET DATA
  Innovative Product/Service created as output of project Innovation Innovation Impact Impact Impact Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Buyer of the product/service in the energy value chain Potential market (M)
  Innovative Product/Service created as output of project Incremental Disruptive Decrease Energy cost Operational security Lower Gas Emissions Utility Utility Utility Utility Utility FeedStock Eq.Manufacturer Eq.Manufacturer Eq.Manufacturer Other Potential market (M)
  Innovative Product/Service created as output of project Incremental Disruptive Decrease Energy cost Operational security Lower Gas Emissions Production Transport Distribution Retail Storage FeedStock Big (i.e.ABB) Medium (i.e.) Small (i.e.) Other Potential market (M)
1  53 innovative products and services offered in NewMat project                           To be estimated after market analysis  
New Materials for Energy Systems - NewMat
38
OPEN ISSUES

• New industrial partner (RAFAKO) will be
  introduced.
• RAFAKO will be involved in
• WP1 new task to be elaborated
• WP8 joint industry-driven PhD thesis
• WP9 and WP10
• Update of WP6 on Smart Grid Materials
• due to complementary project realised by CC
  Sweden.

New Materials for Energy Systems- NewMat
39
Thank you for your attention
40
MAIN PRODUCTS

• WP1
• Modified martensitic steels with 100 000 hour
  rupture strength of 100 MPa at 650C (month 24)
  AGH-UST
• New Ni-based superalloys tailored to reduce their
  thermal expansion coefficients to the level of
  12Cr steels (month 30) AGH-UST
• New Ni-base superalloys with increased tensile
  strength in temperature range 20 - 700C, (month
  36) AGH-UST
• Results of fire side oxide scale formation and
  corrosion resistance tests of modified new
  martensitic 9-12 Cr steels and Ni-base
  superalloys (month 22) IFK
• Functional coatings and surface design for
  optimized oxidation and mechanical properties
  (month 36) UU
• WP2
• Identification of damage and degradation
  mechanisms of the new materials exposed in coal
  syngas environment (month 36) AGH-UST
• Availability and testing of temperature
  controlled material exposure probe (prototype)
  (month 36) IFK
• Advanced material developments by laboratory and
  field exposure tests (month 36) IFK

New Materials for Energy Systems - NewMat
41

• WP3
• Determination of corrosion mechanisms of ODS
  alloys (month 24) AGH-UST
• Determination of creep resistance and creep
  mechanisms of new materials for nuclear power
  plants (month 36) AGH-UST
• Model of swelling in relation with the presence
  of intrinsic sinks such as martensite laths
  (month 36) AGH-UST, INP
• Alternative graded materials for combined
  oxidation/creep resistance (month 36) UU,
  AGH-UST, INP

New Materials for Energy Systems - NewMat
42

• WP4
• Functional ceria electrolyte for IT-SOFC
  (month 12) AGH-UST
• Development of anode materials (based on CeO2)
  active for hydrocarbons for IT-SOFC (month 20)
  UJ
• Improved perovskite cathode material for IT-SOFC
  (month 24) AGH-UST
• Development of an optimal method of deposition of
  rare-earth element oxides on interconnectors
  (month 36) AGH-UST
• New spinel coatings with improved lifetime (month
  36) IST
• New materials for fuel cells DMFC (month 36) IST
• Development of safe and efficient cathode
  materials based on transition metal compounds for
  Li-ion batteries (month 12) AGH-UST
• Development of anode materials based on tin or
  silica for Li-ion batteries materials
  optimization (month 24) UJ
• Development of safe, high performance electrode
  nanocomposites for Li-ion batteries taking
  advantage of CCL innovation (30 month) AGH-UST
• Optimal chemical composition of the electrode
  materials and nanocomposites for safe and high
  power Li-ion batteries (month 36) AGH-UST, UJ
• Development of safe, high capacity, paper and
  polymer based cathode materials for Li ion
  batteries (month 24) UU
• Demonstration of the effective photo-electrochemic
  al cell (PEC) for water splitting (month 36)
  AGH-UST
• Demonstration of solar cell prototype of enhanced
  efficiency ( month 15) AGH-UST
• Demonstration of solar control system (month 24)
  AGH-UST
• Demonstration of unified system of photovoltaic
  solar control ( month 36) AGH-UST
• Determination of optimal formulations and working
  conditions for photocatalytic and photovoltaic
  applications (month 36) UJ, AGH-UST
• Patent application on optimized synthesis of
  photoactive materials/coatings (month 36) UJ,
  AGH-UST

New Materials for Energy Systems - NewMat
43

• WP5
• New process for membranes production and report
  on correlations for permeability (month 35) IST
• New macromolecular structures for the selective
  layer (month 36) IST
• Materials for energy generation from biomass and
  bio-residues IFK, EDF
• Low friction surfaces and materials for energy
  efficiency UU
• WP6
• Development, processing and characterisation of
  new nanomaterials for gas sensors (month 36)
  AGH-UST
• The successful penetration of the space between
  the carbon fibers by liquid Al (month 12) BZF
• The successful transfer of carbon fibers from
  molten salt into liquid Al (month 24) BZF
• Laboratory prototype (month 36) BZF
• Determination of microscopic and nanometric
  properties of nanocomposites with high dielectric
  response (month 36) EDF

New Materials for Energy Systems - NewMat
44

• WP7
• Protocols of quantitative microstructural
  analysis by means of analytical electron
  microscopy (month 12) AGH-UST
• Procedures of quantitative mapping of materials
  chemical composition in micro- and nano scale by
  STEM-EDS and STEM-EELS methods (month 36)
  AGH-UST
• Elaboration of procedures of electron tomography
  for 3D quantitative microstructural analysis of
  nanoparticles (month 24) AGH-UST
• DFT models connected to analytical electron
  microscopy and combinatorial design UU
• Method for coupling intergranular and
  intragranular creep with cavity growth in order
  to predict the creep curve as a function of the
  microstructure (month 36) INP, AGH-UST
• WP8
• Summer School on Materials for high efficiency
  zero-emission fossil fuel power plants (month
  20) AGH-UST, ALL
• Workshop on Smart materials for hydrogen and
  renewable energy (month 11) AGH-UST
• Workshop on meso-, micro- and nanostructure
  characterisation of innovative materials for
  clean energy (month 30) AGH-UST, ALL
• Workshop on Smart materials for hydrogen and
  renewable energy (month 11)AGH-UST

New Materials for Energy Systems - NewMat
45

• WP10
• Bussiness model and plan for demonstration and
  application of new materials for energy systems
  (month 16) AGH-UST
• Patent application (month 12) AGH-UST
• Patent application (month 36) AGH-UST

New Materials for Energy Systems - NewMat