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Italian RoadMap for PV Technology
F. Roca, F. Roca, ENEA, Portici (NA), Italy
International Exhibition & Conference for the Photovoltaic Industry in theMediterranean area4th edition.- Rome Fair Centre, 8 - 10 September 2010
Solar Energy
� One of priorities in next decades will be to substain thedevelopment by means of energy sources compatible with theenvironmental concernsenvironmental concerns
� Solar energy is a realistic and promising option
� By covering only 0,1% of earth’s land with solar collector eff.>20%it is possible to meet the current yearly mondial energy needs(amounting to 1,2 x 10^14 kWh)
� Solar energy has many advantages: free of charge, distributed,unlimited, ecologically benign
� The drawbacks of solar energy are: its low power density� The drawbacks of solar energy are: its low power density(<1kW/m^2) intermittent and aleatory (night/day and clear-skyconditions) and unequally distributed (mostly by the equator- sun-belt
PV cost –vs- utility power
Source: Grid parity – definitions and scenarios“ B2B Workshop “Grid Parity – two words, many different
meanings” Valencia - September 2, 2008 Winfried Hoffmann, Vice President EPIA
2010
PV electricity cost–vs- consumer price
2010
Source: PV priorities and the Strategic Research Agenda (SRA) WG3: Science, Technology & Applications
Wim Sinke.- PVTP General Assembly Brussels, 19 May 2006
2010
PV electricity cost–vs- consumer price
201520102015
Source: PV priorities and the Strategic Research Agenda (SRA) WG3: Science, Technology & Applications
Wim Sinke.- PVTP General Assembly Brussels, 19 May 2006
2010
PV electricity cost–vs- consumer price
20152020201020152020
Source: PV priorities and the Strategic Research Agenda (SRA) WG3: Science, Technology & Applications
Wim Sinke.- PVTP General Assembly Brussels, 19 May 2006
2010
PV electricity cost–vs- consumer price
20152020> 2030201020152020> 2030
Source: PV priorities and the Strategic Research Agenda (SRA) WG3: Science, Technology & Applications
Wim Sinke.- PVTP General Assembly Brussels, 19 May 2006
1,2
1,4
PV 10 $/W
Electricity cost–vs- grid distance
0,4
0,6
0,8
1,0
Ele
ctri
city
cost
($/k
Wh
)
PV 10 $/W
PV 2 $/W
PV 5 $/W
0
0,3 3 5 10 20 50 100 300
Daily load (kWh/day)
0,2
Ele
ctri
city
ENEA Source
PV Electricity & social development
PV provides today 0.1% of total
global electricity generation. On
or before 2030 PV can supply
>10% of electrical power. Having
in mind the share in populationin mind the share in population
it could be > 60-70% of world
population
How?How?::
�The European Union’s Strategic Energy Technology (SET) Plan
European PV Road MapEuropean PV Road Map::
Technology (SET) Plan
�Solar Europe Industry Initiative
�The European PV Technology Platform’s
� Implementation Plan for Strategic Research Agenda
10
Agenda
How?How?::
� IEA PV Road Map
Worldwide PV Road MapWorldwide PV Road Map::
�The Solar America Initiative (SAI)
� Japan’s PV roadmap towards 2030 (PV2030) and the 2009 update PV2030+
�China’s solar energy development plans
� India’s Solar Initiative
11
� India’s Solar Initiative
�Australia’s Solar Flagship Initiative
PV R&D Roadmap : Common PV R&D Roadmap : Common topicstopics
� Increase R&D efforts to reduce costs
�Ensure PV readiness for rapid deployment,�Ensure PV readiness for rapid deployment,
�Supporting implementation for existing techology (short term) and Innovations (long term option)
�Expand international R&D collaboration
�Making best use of national/international
12
�Making best use of national/international competencies.
TecnologyTecnology –– vsvs-- market market cyclecycle
The The EngineEngine forfor PV PV R&R& D D ActivitiesActivities
EERE, EERE, SolarSolar America America InitiativeInitiative
USA Departmen of Energy .- Energy Efficiency and Renewable Energy (EERE)
Ten PV technology roadmaps were developed in 2007 by NREL, Sandia National
Laboratories, DOE, and experts from universities and private industry [SAI 2007]
EU PV EU PV TechnologyTechnology PlatformPlatform
�PV Platform collects, develops, maintains and communicates high-quality, up-to-date information and insights
� It publishes reference documents such as the Strategic Agendas � It publishes reference documents such as the Strategic Agendas and Implementation Plans.
� It communicates intensively with European Institutions, EU Member State governments and other relevant stakeholders
� It establishes working contacts and cooperation with other Technology Platforms, international organizations, interest groups and networks .
� It recognises the paramount importance and potential impact of the 2009 EU Renewable Energies Directive and the Strategic the 2009 EU Renewable Energies Directive and the Strategic Energy Technology Plan (SET Plan)
� It works together with the European Photovoltaic Industry Association on the 2020 agenda
EERA PV: EERA PV: A Joint Programme on Photovoltaic Solar Energy
ENEA is a member of EERA
Ten leading European Research Institutes have taken up the challenge to found an
European Energy Research Alliance (EERA). The key objective of the EERA is to accelerate
the development of new energy technologies by conceiving and implementing Joint
Research Programmes in support of the Strategic Energy Technology (SET) plan by pooling Research Programmes in support of the Strategic Energy Technology (SET) plan by pooling
and integrating activities and resources, combining national and Community sources of
funding and maximising complementarities and synergies
Public PV R&D spending in selected countriesPublic PV R&D spending in selected countries::
Italy PV R&D
∼∼∼∼5MEUR 2009
Source IEA-PVPS www.iea-pvps.org
R&D funds: distribution by techR&D funds: distribution by tech
with shortwith short--, medium, medium-- and longand long--term impactterm impact
Source IEA-PVPS www.iea-pvps.org
Evolution of Evolution of investementinvestement cost in R&D cost in R&D ::
World
26
Source IEA-PVPS www.iea-pvps.org
Evolution of Evolution of investementinvestement cost in R&D cost in R&D ::
27
Source IEA-PVPS www.iea-pvps.org
2000
2500
Cu
mu
late
d p
ow
er
(MW
)Conto Energia
PV Market in Italy:PV Market in Italy:
500
1000
1500
2000C
um
ula
ted
po
we
r (M
W)
Conto Energia
II phase
Conto Energia
I phase
Rooftop
Programme
off grid
applications0
2005 2006 2007 2008 2009 2010
exp.
applications
Source: STATUS AND PERSPECTIVES OF PV IN ITALY
Proc. 25th EPVSEC
A.De Lillo, S.Castello, F.De Lia, S.Guastella, F.Paletta
2000
2500
3000
installed plants
PV business in Italy during the yearsPV business in Italy during the years
-1000
-500
0
500
1000
1500
2000
2006 2007 2008 2009
Va
lue
(M
€) export of PV
products
import of PV
products
net value of PV
business
-2000
-1500business
Source: STATUS AND PERSPECTIVES OF PV IN ITALY
Proc. 25th EPVSEC
A.De Lillo, S.Castello, F.De Lia, S.Guastella, F.Paletta
manufacture cells module cells module
Solon 34 110
Helios T. 40 0.00 60 55
Solarday 40 60
Total Production Production capacity
PV Cells and module manufacturesPV Cells and module manufactures
Solarday 40 60
Enipower 1 14 10 14
Xgroup 9 23 25 90
Sorgenia 7 10
renergies 10 30
Elettrosun n.a. 3
Azimut 2 5
DG energy 6 10
Ancora 2
Brandoni S. 8 20
During 2009, the module
production of such
companies sums to about
163 MW with a capacity
nearly 500 MWp.
About 15,5 % of the
modules installed in 2009
(722 MW) have been
produced in Italy (112
MW). The other 51 MW Brandoni S. 8 20
Solsonica n.a. n.a. 30 60
Omniasolar 1 10
Eo Solare 3 6
Sunerg S. 2 5
AV Project 2 10
TOTAL 51 163 135 490
MW). The other 51 MW
have been exported while
have been imported
about 610 MW.
Source: STATUS AND PERSPECTIVES OF PV IN ITALY
Proc. 25th EPVSEC
A.De Lillo, S.Castello, F.De Lia, S.Guastella, F.Paletta
BOS manufacturesBOS manufactures
� Elettronica Santerno
� Power One Italy,
� Siac/Siel
� Italcoel,
� Aros
� Answer Drivers.
During 2009, these companies have produced about 880 MW of inverter while their
production capacity is around 1290 MW. About 48 % of the inverters installed in
2009 (722 MW) have been produced in Italy
Source: STATUS AND PERSPECTIVES OF PV IN ITALY
Proc. 25th EPVSEC
A.De Lillo, S.Castello, F.De Lia, S.Guastella, F.Paletta
QuestionnarieQuestionnarie
R&D on PV Innovative material in Italy R&D on PV Innovative material in Italy
Feedback
from the following organizations
Public Research Organization
-ENEA - CNR-IMIP-ENEA
- CNR-MATIS
- CNR-IMM
- CNR-INOA & LENS
- CNR-IMIP
- CNR- ISMAC
- CNR-ISOF
University
- Uni Trento Nanoscience LAb
- Uni MI Bicocca
- Uni Lecce
- Uni Catania
- Uni Genova- Uni Lecce
- Uni Ferrara
- Uni Parma
Private Research organization and companies
- ENI-DONEGANI - CESI
- ENEL - SOLARLAB
- Siena Solar Nanotechnologies
- Uni Genova
- Uni Napoli
- Uni Salerno
R&D in Italy on Existing TechnologiesR&D in Italy on Existing Technologies
Organization Existing Technologies
ENEA high efficiency and low cost crystalline silicon based solar cells; Low
temperature and laser assisted processes; amorphous/crystalline silicon
heterojunctions, Development and optimization of micromorph solar cells heterojunctions, Development and optimization of micromorph solar cells
including application of intermediate reflectors and optimized light
trapping, Low cost transparent conductive oxides , Characterization of
material and devices , low cost Interconnection and packaging solutions
both for rigid and flexible modules
Solar cells characterization; PV manufacturing companies consultancy
UNI-PR; UNI-VR CdTe/CdS; CuGaInSe2/CdS. Technology trasfer
Siena Solar Nanotech
S.p.AProduction of II-VI thin films for the photovoltaic by direct ablation by
ultra-short high energy electron pulses
Uni-FE High efficiency and low cost crystalline silicon based solar cells
Uni-MI-Bicocca cSi Solar cells, multicrystalline and solar grade SiUni-MI-Bicocca cSi Solar cells, multicrystalline and solar grade Si
Uni-CT Thin film Silicon and micromorph Solar cells
Uni-RM1
CNR-IMIP-BA
CNR-IMM-BO
Amorphous/crystalline heterojunctions Solar Cells
The author would like to stress that the information in this table was compiled with the aim to be as complete as possible, but he would like
to apologise for the possible inaccuracies and welcome every amendment.
R&D in Italy on Inorganic Advanced ConceptsR&D in Italy on Inorganic Advanced Concepts
Organization Inorganic Advanced Concepts
NanoscienceLab., University
of Trento
Solar cells integrating Si nanocrystals and plasmonic layer, Sub-bandgap light absorption,
Photoluminescence down-shifting effect; Secondary emission in a cell, understanding of
the photoresponse properties and simulation of light absorption (prof. L.Pavesi)
INOA-CNR & Disruptive technologies for photovoltaics based on highly absorbing disordered structures
LENS-FI for PV, Light trapping in nanostructures, Artificial photosynthesis Synthesis of new hybrid
materials, thin film nanophotonic structures for solar cells (Dr. D. Wiersma)
MATIS IMM-CNR-CT Light absorption in nanostructured Si and Ge (Quantum Dots, Nanowires, thin films);
Electrical transport in nanostructured and amorphous Si; Plasmonic effects on metallic
nanostructured or thin films (prof. F.Priolo)
IMEM-CNR-PR Quantum wells and quantum dots for solar photovoltaics, Improvement in manufacturing
Solar CIGS solar(Dr. M. Mazzer)
IMIP-CNR-BA Plasmonic Photovoltaics; Nanostructured silicon PV; Growth of Silicon nanowires through
VLS gallium-catalyzed mechanism and Nanowires growth of III-V and II-VI semiconductors;
Optical monitoring and material processing (Dr.G.Bruno)
ENEA All Si-QD Solar Cells, , CuO2 and Cu2(Zn,Fe)SnS4 based solar cellsENEA All Si-QD Solar Cells, , CuO2 and Cu2(Zn,Fe)SnS4 based solar cells
IMM-CNR III-V and II-VI Nanowire-based photovoltaics by MOVPE; III-V nanowires on Si; (Prof. N.
Lovergine)
UNI-NA
IMM-CNR -BO
Silicon-carbon alloy films (nc-Si 1-X CX) , silicon nanocrystallites embedded in in SiC
dielectric matrix (Prof. A.Ambrosone, U.Coscia, Dr. C.Summonte)
Uni-Camerino
Solar lab Srl
Si QD nucleation via solid phase separation in SiO2 and Silicon Oxynitride matrices (Prof.
Roberto Murri)
Uni-Ge Metal nanowire arrays with plasmonic functionality (prof. Buatier de Mongeot)
The author would like to stress that the information in this table was compiled with the aim to be as complete as possible, but he would like
to apologise for the possible inaccuracies and welcome every amendment.
Organization PV Concentration
ENEA High efficiency PV-C cSi Solar cells, concentration optics, PV-C modules,
trackers, Indoor-Outdoor Characterization of components and PV-C
R&D in Italy on PV ConcentrationR&D in Italy on PV Concentration
trackers, Indoor-Outdoor Characterization of components and PV-C
Systems.- Technical Norms
CESI S.p.A. Multijunction solar cells based on III-V compounds (dr. R.Campesato)
RSE SpA Multijunction solar cells based on III-V compounds Indoor-Outdoor
Characterization of components and PV-C Systems.- Technical Norms (dr.
G.Timò),
Uni-FE Concentration optics, Dichroic Application (light splitting), Indoor-Outdoor
Characterization of components and PV-C Systems
ENEL SpA Indoor-Outdoor Characterization of components and PV-C Systems (Dr.
F.Aleo)
Pirelli Labs , Angelantoni, PV-Concentration Modules and Systems,Pirelli Labs , Angelantoni,
Beghelli , C-Power, Opto-
i
PV-Concentration Modules and Systems,
The author would like to stress that the information in this table was compiled with the aim to be as complete as possible, but he would like
to apologise for the possible inaccuracies and welcome every amendment.
R&D in Italy on Organic and DSSC Solar CellsR&D in Italy on Organic and DSSC Solar Cells
Organization Organic and DSSC Solar Cells
CHOSE – Univ. Rome “Tor
Vergata”
Dye Sensitized Solar Cells & Modules and panels (prof. A. Di Carlo)
Univ Milano-Bicocca DSC, polymer & small-molecule bulk heterojunction cells (prof. A.Abbotto)
ENI SpA.- Donegani Organic Solar Cells (Dr.R.Po) Photo-electrochemical Water Splitting by DSSC
(D.LMeda)
NLL-ITT-LE Dye sensitised solar cells (DSSC); Hybrid solar cells based on Colloidal inorganic
Nanocrystals; Organic/hybrid solar cells exploiting plasmonic effects (prof.
G.Gigli)
ISTM-CNR Theoretical and Experimental Modeling of Molecular and Nanostructured
Systems Design, Synthesis and Characterization of Precursors and Functional
Molecules (Dr. F. De Angelis)
ISMAC-CNR-Mi All-organic and hybrid active layer Solar Cells, device assembly and photovoltaic
characterisation (Dr.S.Luzzati)characterisation (Dr.S.Luzzati)
ISOF-CNR-Bo Organic bulk-heterojunction solar cells (Dr. N.Camaione)
Uni-FE Realization and Characterization of DSSC
ENEA Organic & DSSC Solar Cells. Organic TCO, Carbon Nanotubes graphene
Uni-SA Organic nanocomposite heteroemitters on c-Si solar cells (prof. H.C. Neitzert )
The author would like to stress that the information in this table was compiled with the aim to be as complete as possible, but he would like
to apologise for the possible inaccuracies and welcome every amendment.
Organization BOS & PV systems
ENEA module's quality evaluation , reliability and life time estimation, BOS,
R&D in Italy on BOS & PV SystemsR&D in Italy on BOS & PV Systems
ENEA module's quality evaluation , reliability and life time estimation, BOS,
DC-DC converter, DMPPT, Tracking systems Build Integrated PV,
Distributed energy generation & management, Indoor-Outdoor
Characterization of components and PV-C Systems Technical Norms.
RSE SpA Indoor-Outdoor Characterization of components and PV-C Systems.-
Build Integrated PV, Distributed energy generation & management ,
Technical Norms
Poli-MI, UniRM2 BIPV, Outdoor Characterization of components and PV-C Systems
Uni-NA Modelling and characterization of cSi Solar cells
UNi-TO, Uni-PA Uni-SA, BOS, DC-DC converter, DMPPT,UNi-TO, Uni-PA Uni-SA, BOS, DC-DC converter, DMPPT,
CCR IES Ispra PV modules certification, Indoor-Outdoor Characterization of
components and PV-C Systems Technical Norms.
The author would like to stress that the information in this table was compiled with the aim to be as complete as possible, but he would like
to apologise for the possible inaccuracies and welcome every amendment.
Sensor and Semiconductor
Founder
Prof. Giuliano Martinelli.-
died 2010
Sensor and Semiconductor
Laboratory
University of Ferrara
cSi SJ III-V SJ/DJ
TwoTwo FacetedFaceted ShellsShells stackedstacked eacheach on the on the otherother are are
designeddesigned toto generate generate twotwo spatiallyspatially separatedseparated
chromaticchromatic illuminatedilluminated areasareas
• Crystalline and multi silicon solar cells
• Thin film material (µc-silicon)
• Amorphous silicon Heterojunction
ENEA PV Activities on materials and devicesENEA PV Activities on materials and devices
• Amorphous silicon Heterojunction
• Trasparent conductive Oxide
• Organic TCO
• Antireflective and selective optical coating
• New approaches (QD, OPV)
• Concentrator silicon solar cells
42
PV-C
• PV-C lens and modules
• Trackers, drivers
ENEA PV Activities on PV Systems and PVENEA PV Activities on PV Systems and PV--CC
• Trackers, drivers
• Indoor-Outdoor chracterization tools &
experimental facilities
PV- Systems:
• Build Integrated PV
• DC-DC converter
• DMPPT
43
• DMPPT
• Tracking systems
• Hybrid systems
• Hydrogen production by FV
• Distributed energy generation & management
Multi-APprOach for high efficiency integrated andinteLLigent cONcentrating PV modules (Systems)
Il Progetto APOLLON (7FP)
• Contributo EC: 8.3 Meuro (costo totale 11.8 Meuro); Durata: 60 mesi dal
PV TechnologyPV Technology--platforms & R&D projects in Italyplatforms & R&D projects in Italy
• Contributo EC: 8.3 Meuro (costo totale 11.8 Meuro); Durata: 60 mesi dal1.07.2008
• Coordinatore: CESI RICERCA (RSE)
• Partecipanti: 16 partners con End-User and diverse SME
(Idee progettuali a supporto del PNR bando 2005)
Il Progetto FOTOENERGIA (FIRB-MUR)
• Contributo MUR: ~880 k€ (costo totale ~1.100 k€ ; Durata: 36 mesi dal• Contributo MUR: ~880 k€ (costo totale ~1.100 k€ ; Durata: 36 mesi dal18.07.2007
• Coordinatore: ENEA Portici
• Partecipanti: 6 partners (ENEA; CESI R. Uni-PR; Uni-FE, Uni-NA; Uni-BO)
ProgettoProgetto ScoopScoop
Bando Efficienza Energetica
ScoopCapofila Enel Produzione S.p.A
Source: http://www.industria2015.ipi.it/?id=76
Capofila Enel Produzione S.p.AInvestimento € 17.052.313
Contributo € 7.301.940
Breve descrizione del progetto:
Italian Solar COncentration technolOgiesfor Photovoltaic system.
Il progetto mira ad integrare quattro filiere produttive per lo sviluppo tecnologico, la
realizzazione industriale e la commercializzazione di sistemi fotovoltaici a
concentrazione per applicazioni in ambito di generazione elettrica distribuita,
generazione elettrica di grande potenza, cogenerazione di energia elettrica e calore generazione elettrica di grande potenza, cogenerazione di energia elettrica e calore
integrata nell’edilizia e cogenerazione di energia elettrica e calore per piccole e medie
attività commerciali. Inoltre, si propone la creazione di un centro italiano di
qualificazione e certificazione di sistemi fotovoltaici a concentrazione.
Partners: imprese
Angelantoni SpA; Idea Srl, CESI, Savio SpA, STMicrolectronics Srl, SGS Future Srl, Calzavara SpA,
Riello SpA, Saret Srl, Enel Produzione SpA, Alitec & C
Partners: Centri di Ricerca
Centro Ricerche Past-Ottica SpA, Concorzio catania Ricerche, RSE, Enea, CNR-INOA, Uni-FI
Costo agevolabile totale ~ 15.0 M€
Contributo complessivo concedibile ~ 7.3
M€
Bando Efficienza Energetica
ProgettoProgetto ScoopScoop
ProgettoProgetto PED4PVPED4PV
Bando Efficienza Energetica
PED4PVCapofila CTGCapofila CTGInvestimento € 13.984.524
Contributo € 5.631.505
Breve descrizione del progetto:
PED4PV (PULSED ELECTRON DEPOSITION FOR PHOTOVOLTAIC).
Il progetto intende sviluppare un nuovo processo per la produzione di
celle fotovoltaiche a film sottile efficiente, a basso impatto ambientale.
Il nuovo processo, chiamato “Pulsed Electron Deposition”, è basato su Il nuovo processo, chiamato “Pulsed Electron Deposition”, è basato su
una tecnologia relativamente nuova, molto efficiente ma ancora in
parte inesplorata.
Partners: imprese
Rial Vacuum, CTG. Xgroup Solar Industries, marazzi Group, Salentec
Partners: Centri di Ricerca
CNR (Emilia R., Puglia, Trentino)
ProgettoProgetto FlexsolarFlexsolar
Bando Efficienza Energetica
FlexsolarCapofila Organic SpintronicsCapofila Organic Spintronics
Investimento € 12.132.996
Contributo € 6.340.460
Breve descrizione del progetto:
Celle fotovoltaiche flessibili a film sottile su substrati metallici a base di
materiali semiconduttori a basso costo e a basso impatto ambientale
Partners: imprese
Advanced Technology Solution, Organic Spintronics, KME Italy, Siena Solar NanoTEchnology. NIWT
Partners: Centri di Ricerca
Tecnion, Israele, Istituto per lo studio dei materiali Nanostrutturati CNR-ISMN-BO; Istituto per la
Microelettronica ed i microsistemi CNR-IMM-BO
ProgettoProgetto SistemiSistemi fotovoltaicifotovoltaici
Bando Efficienza Energetica
Progetto Sistemi fotovoltaiciCapofila Beghelli S.p.ACapofila Beghelli S.p.A
Investimento € 11.857.669
Contributo € 4.887.103
Breve descrizione del progetto:Sistemi fotovoltaici ad alta concentrazione ed elevata efficienza.
Il progetto propone la realizzazione di un sistema fotovoltaico ad alta concentrazione, integrato di
elementi per la regolazione, il monitoraggio, la diagnostica e la comunicazione wireless dei singoli
componenti, dotato di inseguitori solari, diagnostica evoluta e gestione dell’energia per
l’immissione dell’elettricità nella rete pubblica. Si prevede l’utilizzo di celle multigiunzione di tipo
Partners: imprese
BECAR srl, Beghelli SpA, Smart Res SpA, Di.Co Service srl, Hybridec Int. Rsl, QuantaSol Ltd, Q-
Tech srl
Partners: Centri di Ricerca
Univ. Mediterranea reggio Calabria Dip. Inf., Mat. Elett. E Trasp.(DIMET) , Univ. Clabria Dip. Elett.
Inf. e Sist (DEIS)
l’immissione dell’elettricità nella rete pubblica. Si prevede l’utilizzo di celle multigiunzione di tipo
III-V ad effetto quantico, lo sviluppo di sistemi ottici e di algoritmi per l’ottimizzazione energetica e
la messa a punto di un protocollo di trasmissione per l’interconnessione di tutti i componenti.
ProgettoProgetto BIPVBIPV
Bando Efficienza Energetica
BIPVCapofila Panaria Group Industrie Ceramiche S.p.ACapofila Panaria Group Industrie Ceramiche S.p.A
Investimento 11.667.652 €
Contributo 5.119.059 €
Breve descrizione del progetto:Il progetto prevede lo sviluppo e messa a punto di piastrelle ceramiche nelle quali sono integrate
celle fotovoltaiche di due differenti tipi, per edifici con involucri evoluti.
Partners: imprese
Panaria Group, Solar System&Equipment srl, Elettrorava SpA, Elettroncia Santerno, Evolvente srl,
Pemco Euroinks srl, Sacmi Cooperativa Mecc. Imnola, Cefla Soc. Coop., Dallera srl
Partners: Centri di Ricerca
Centro Ceramico Bolgona, Ist. Coop. Per l’Innov. ICIE, IRcCOS S.c.a.r.l., CNR-Istituto per le Tecn.
Della Costruzione-ITC
R&D R&D RoadRoad map in Italy map in Italy ::
PNR - Programma Nazionale di Ricerca (National Research Programme)
� In order to support basic research by favoring multidisciplinary
� Develop human capital for science, particularly in research projects
of excellence
� Promote national/international collaboration
� Increase collaboration between public research network and
companies
� Increase the technological potential of the production network by
also promoting spin-offs and Start-up of new high technology
companies
Main Italian Main Italian Public Public R&D funding schemesR&D funding schemes::
FIRB- Fondo Integrativo Ricerca di Base
(Basic research Funds )
Most of the government funding for R&D is under the responsibility of MIUR Ministry of
University and Research and MSE Ministry of Economical Development
(Basic research Funds )
PRIN - Progetti di ricerca industriali di interesse nazionale
(Industrial research on topics of national relevance)
FAR- Fondo Agevolativo Ricerca
(Public instrument to fund firms' research activities)
FISR- Fondo Integrativo Speciale per la Ricerca
(Specific research projects on thematic areas, according to
the indications of PNR )the indications of PNR )
PON Programma Operativo Nazionale Ricerca e Competività
(Specific research projects with the aim of increasing
national competitiveness )
CERSE Fondi Ministero Sviluppo Economico assigned by way of
CERSE (Comitato degli Esperti per la Ricerca sul sistema
Elettrico)
ConclusionConclusion::
� Fragmentation of R&D
� Few groups are focussed on implementation of existing � Few groups are focussed on implementation of existing Technology (short term R&D)
� Excellent quality in research of several groups but mainly on materials and less on devices
� Better effectiveness will come from national road map (provision should be assured in PNR), as well Initiatives like Industria 2015 and international collaboration like Industria 2015 and international collaboration (mainly EERA)
Thanks for your attention
Enea Portici Enea Portici TechnologicalTechnological UnitUnit
ENEA UTTP Portici
Tel:081-7723270
Fax:081-7723344
E-mail:
Francesco Roca
Enea Portici Enea Portici TechnologicalTechnological UnitUnit
EuropeanEuropean and International Project and International Project CoordinationCoordination
Località Località GranatelloGranatello, 80055 Portici, , 80055 Portici, NaplesNaples ItallyItally
www.portici.enea.itwww.portici.enea.it