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Key Enabling Technologies:
un link tra ricerca pubblica e privata
The KETs in priority industrial technologies in Italy
Andrea Porcari
Associazione Italiana per la Ricerca Industriale
Roma, 5 dicembre 2012
The Italian Working Group on KETs
• Key Enabling Technologies drivers for promoting future
industrial growth within Horizon 2020
• All advanced countries consider strategically vital to
build a strong position in this field
• Need for cooperation/coordination of R&I policies
(government, industry, public research) to maximize KETs benefit
AIRI promoted (2011) a WG on KETs at national level,
on the basis of its regular assessment of the industrial tech in Italy
Assessment of Priority Technologies (PT) for the Italian Industry
• 8th edition (running since the ‘90s)
• 100 R&D Managers involved
• Short/medium term tech
• 8 key industrial sectors and 84 priority tech identified
• Representative of the Italian landscape (AIRI)
2012 edition: + analysis of KETs in the 8 sectors
Sectors and number of Priority Tech identified per sector (on a total of 84)
ICT9 Micro-
nanoelectronics6
Energy7
Chemicals13
Farma & Bio8
Aereonautics12
Transport (ground, rail,
marine)19
Manufacturing systems
10
The analysis of KETs
• KETs Working Group: experts from industry and academia, in close relation
with the Priority Tech WG
• Members: AIRI/Nanotec IT, CNR, Mossi & Ghisolfi Group, Finmeccanica,
Ericsson, Politecnico di Milano, STMicroelectronics
• Scope: providing a strategical vision of KETs at national level
Methodology:
• Analysis of background information
• Collection of inputs from Priority Tech coordinators (PT-KETs matrix)
• Desk analysis of the Priority Tech report
NanotechMicro-
nanoBiotech Photonics
Advanced
MaterialsAMS
SECTOR 1 (es.ICT)
PT1.1 (SECTOR 1, PRORITY TECH 1)
PT1.2 (es ICT - tech for wide band networks)
PT1.3 (es ICT - tech for home networks)
PT1.4
….
SECTOR 2
PT2.1
PT2.2
PT2.3
(Priority tech vs. KETs matrix)
5
Key Enabling Technologies (KETs)
Knowledge, capital-intensive tech:
•pervasive, enabling process, innovation throughout the economy
• systemic relevance • high R&D • rapid and integrated innovation cycles • high capital expenditure • highly skilled employment • multidisciplinary, transsectorial • trend towards convergence, tech integration
Priority Technologies (PT)
for the Italian industry
Enabling tech (not products):
• Innovative and of concrete industrial/
business relevance • Impact on national economy
(jobs, export, competition…) • impact on one or more sectors
(systemic relevance) • 3 years application timeframe
(rapid innovation cycles) • Integrated in a value chain perspective
Several PT are:
capital intensive
require highly skilled employment
Background: KETs and Priority Tech definitions and similarities
KETs and Priority Tech are closely related
6
How KETs contribute to Priority tech
SECTOR Priority Technology 1
Specific Tech 1
Specific Tech 2 PT2
PT3
KETs
KETs
Three cases:
• KET same as the sector (e.g. micro-nanoelectronics, AMS)
• KET same as the Priority Technology (es. nanomaterials for catalysis)
• KETs contribute to some extent to the Priority tech
KETs
7
How KETs contribute to Priority tech: the energy sector example
Priority Technologies in the Energy Sector Nanotech Micro-
nano Biotech Photonics
Advanced
Materials AMS
ENERGY
1 Technologies for storage and transport of energy X X
1.1 Liquified Natural Gas (GNL) x x 1.2 Compressed Air Energy Storage (CAES) x
2.Technologies for power generation and advanced materials X X X X
2.1 Acid gas compression x x 2.2 combined cycles and advanced materials (natural gas power plants)
x x x
2.3 Supercritical cycles and advanced materials for clean coal technologies
x x x
2.4 Fuel cells: SOFC, PEMFC, DMFC x x x x
3., Technologies for the use of biomass X
3.1 biomass for electric and thermal energy production 3.2 waste to fuel technologies x
3.3 thermal and biological conversion of biomass : aviation fuels x
4., Technologies for solar energy exploitation X X X X X
4.1, Advanced photovoltaics (Si, polymers, organics) x x x x X 4.2 Thermo solar cells x x x
5. Technologies for energy efficiency X X
5.1, Solar Cooling x x 5.2, Geothermal energy
6., Smart Grid/Smart Metering/Smart Energy X X X X X X
7.Carbon capture and storage (CCS) tech X X X X X X
KETs contribution to industry sectors – breakdown by KET
0% 10% 20% 30% 40% 50% 60%
Micro e nanoelettronica
Sistemi avanzati prduzione
Materiali avanzati
Nanotech
Biotech
Fotonica
Number of Priority Tech with contribution by KETs
KET
s
ICT Micro-nanoelectronics EnergyChemicals Farma & Bio AereonauticsTransport (ground, rail, marine) Manufacturing systems
9
KETs contribution to industry sectors: breakdown by sector
• KETs contribute to all 8 sectors
• More than 75% of the 84 Priority
Tech includes at least one KET
• More than 45% PT includes
at least 3 KETs
• More than 30% PT includes at least a
KET with TRL>6
Cross Cutting KETs
MICRO-/NANO
6/6
ENERGY
7/7
.
PHARMA/BIO
8/8
TRANS PORT
19/19
AMS 10/10
ICT
5/9
CHEM
6/13 AERO
9/12
(A/B) Total number of Priority Tech per sector / PT including at least one KETs
10
Nanotech
ICT data computing,storage (big data), visualization, sensors
tech “home networks”, security
MICRO-NANO silicon integration,
photovoltaics, sensors, silicon photonics
ENERGY Solar energy tech, fuel cells,
clean coal tech, Carbon capture and storage (CCS)
tech
CHEMICALS structural and functional
materials for the manufacturing industry
PHARMA/BIO Novel analytical techniques,
delivery and imaging systems,
minimally invasive tech
AERONAUTICS materials & processes (structures, engines,
maintainance), low env. impact technologies
TRANSPORT structural /functional
materials, power train tech (power, transmission, fuel)
(perfomance, efficiency,, env, impact)
AMS structural materials, sensors
and components (performance, efficiency,
quality, env. Impact)
Nanotech contributes to smore than 50% of Priority Technologies
11
Micro-nano
electronics
ICT: data computing,storage (big data),, visualization, sensors, wide band networks, “home networks”, human-machine
interface,security
MICRO-NANO silicon integration,
photovoltaics, sensors, Si alternative materials,
heterogeneus integration, silicon photonics
ENERGY Solar energy tech, smart
grid/smart metering/smart energy, fuel cells
CHEMICALS functional materials for the
manufacturing industry
PHARMA/BIO Novel analytical techniques (High throughput screening,
etc), -omics technologies (DNA microarray, ecc)
AERONAUTICS condition –based maintances systems, autonomous systems
tech, human-machine interface
TRANSPORT Smart device & systems for
(efficient) power train, infomobility, human-machine
interface
AMS systems automation, integration, process
monitoring, diagnosis, mantainance, efficiency and quality of integrated systems
Micro-nano contributes to some 60% of Priority Technologies
12
Biotech
ICT -
MICRO-NANO sensors technologies
ENERGY biofuels from renewable
resources and waste; Carbon capture and storage (CCS)
tech
CHEMICALS renewable resources tech
(biorefinery and bioproducts, such as bioplastics,
bioethanol, biopolymers)
PHARMA/BIO biomarkers,
biomolecular production, minimally invasive tech,
advanced therapies
AERONAUTICS -
TRANSPORT power train tech (power,
transmission, fuel) (perfomance, efficiency, env.
impact)
AMS green , low env. impact process technologies ,
Micro-nano contributes to some 30% of Priority Technologies
13
Photonics
ICT:
Wireless & wireline wide band networks, security MICRO-NANO
photovoltaics, sensors tech, heterogeneus integration,
silicon photonics
ENERGY Solar energy tech, smart
grid/smart metering/smart energy
CHEMICALS functional materials for the
manufacturing industry
PHARMA/BIO Imaging systems, minimally
invasive tech
AERONAUTICS condition –based maintances
systems
TRANSPORT device & systems for veichle
system energy efficiency
AMS components for systems automation, integration,
process monitoring, diagnosis, mantainance
Photonics contributes to some 30% of Priority Technologies
14
Advanced materials
ICT:
data computing,storage (big data), wireless & wireline
wide band networks, security tech
MICRO-NANO silicon integration,
photovoltaics, sensors, Si alternative materials,
heterogeneus integration, silicon photonics
ENERGY Power generation (gas, coal),
Solar energy, geothermal, Carbon capture and storage
(CCS)
CHEMICALS environmental remediation, renewable resources tech , functional materials for the
manuf. industry
PHARMA/BIO delivery systems, minimally
invasive tech
AERONAUTICS materials & processes (structures, engines,
maintainance), (quality, perfomance,
efficiency, env. impact)
TRANSPORT structural /functional green materials, human-machine interf., power train tech,
(quality, perfomance, efficiency, env. impact)
AMS structural materials for
components and systems (perfomance, efficiency, env.
impact)
Advanced materials contributes to more than 55% of Priority Technologies
15
Advanced manufacturing
systems
ICT:
data computing,storage (big data), wireless, & wireline
wide band networks, security tech
MICRO-NANO silicon integration,
photovoltaics, sensors, Si alternative materials,
heterogeneus integration, silicon photonics
ENERGY Power generation (gas, coal),
Solar energy tech, geothermal, Carbon capture
and storage (CCS) tech
CHEMICALS renewable resources tech , functional materials for the
manuf. industry
PHARMA/BIO minimally invasive tech
AERONAUTICS materials & processes (structures, engines,
maintainance), low env. impact technologies
TRANSPORT structural /functional green materials, power train tech
(quality, perfomance, efficiency, env, impact)
AMS materials, systems, software,
ICT based solutions for AMS (just in time, on demand, sustainability, quality, env impact...)
AMS contributes to more than 55% of Priority Technologies
• Cross cutting KETs,
• contributing in most national priority industrial tech
• Key competences across sectors, products, value chains
• Common challenges and drivers across sectors and technologies
• R&I as a tool for competitiveness
• Sustainable/Responsible R&I: quality/standard of products and work
organizations, efficiency, Reuse, Reduce, Recycle
• Aligment of KETs framework with Italian industrial system
(as represented by AIRI)
• Different levels of maturity of KETs
Conclusions
Private –public cooperation is key, on tech and sustainability issues
• Tech area and tech maturity may require different approaches
• A roadmapping and SWOT exercise envisaged to help focus and
coordinate efforts
AIRI – CNR Workshop
The KETs in priority industrial technologies in Italy
Andrea Porcari
Associazione Italiana per la Ricerca Industriale
Roma, 5 dicembre 2012
Thanks for your attention
www.airi.it – www.nanotec.it