Embed Size (px)
Citation preview
MARCH 7 2016 Rue d’Arlon 80, 1040Bruxelles
Agenda
11:00 –
11:30
Welcome
Introduction of participants
11:30 –
12:00
ETIPWind Governance
Communication of the structure and governance ofETIPWind.
Appointment of “2nd” to the ETIPWind SC representative.
12:00 –
12:45
ETIPWind Work Programme 2016 - approval
Based on the draft ETIPWind Work Programme distributed by the secretariat a discussion of theWork
Programme 2016 will be calledfor.
Agreement on ETIPWind Work Programme2016.
12:45 –
13:30
Lunch
13:30 – Strategic Research Agenda (SRA)
• The methodology on collecting data for writing the “status report on the implementation of the SRA and
the SET-Plan integrated roadmap including analysis of short, medium and long term priorities for future
wind energy related topics” will be presented
15:30
15:30– Validation workshop delivering input to the Horizon 2020 Energy Programme 2018 -2020
16:15 Communication about the planed workshop validating the key content of the SRA 2016
Discussion of topic for the workshop 01 taking place 26 or 27 September 2016, Hamburg.
16:15 – AOB and next step
16:45 Next step and AOB
Political momentum
“Europe is to become #1 in the next generation of renewables worldwide”
Jean Claude Juncker, European CommissionPresident
COP 21 – ParisAgreement
Politicalmomentum
5 Pillars:
Security of Supply
Internal Energy Market
Energy Efficiency
Emissions Reduction
Research and Innovation
SET-Plan
Towards an Integrated Strategic Energy Technology (SET) Plan: Accelerating the European Energy System Transformation C(2015) 6317
• SET-Plan 10 actions to accelerate the energy system
transformation:
1: Sustain technological leadership by developing highly
performant renewabletechnologies and their integration in the
EU’s energy system.
2: Reduce cost of keytechnologies.
3: etc…
SET-plan
Delivering on the SET-Plan priority actions:
For each of the 10 priority actions the EC will define
with MS:
A: The level of ambition (in terms of prioritiesand
funding).
B: The modalities for implementation.
C: The timing for achieving results and adopting
expected deliverables.
Horizon2020 timeline
Nearly doubling of non-nuclear energy research funding (from € 3.8bn in FP7 + CIP to €
5.6bn in H2020).
€ 1,099.000.000*for non-nuclear low carbon energy research andinnovation
H2020 budget 2018 -2020
EU funding granted for windenergy projects:
Program Period Funding
EU research programmesFP1-FP7 1984-2013 € 528m
European Energy programme for Recovery(EEPR) 2009 € 565m
NER300 2011 € 340m
European Investment Bankloans 2005-2013 € 11.5bn
EU Cohesion policy (Structuralfunds) 2007-2013 € 666m
Horizon2020 2014-2020 € 5.6 bn (available tonon-
nuclear energy)
InnovFin (EIB + H2020) 2014 -2020 € 24 bn (available to allsectors)
What are ETIPs?
What areETIPs
European Technology and Innovation Platform’s
“…European Technology Platforms are industry-led stakeholder fora recognised by the
European Commission as key actors in driving innovation, knowledge transfer and European
competitiveness. These platforms develop research and innovation agendas and roadmaps
for action at EUand national level to be supported by both private and public funding. They
mobilise stakeholders to deliver on agreed priorities and share information across theEU.”
EWEA R&Iactivities
WG R&I
R&I
CTO
EWEA
BOARD
Ap
pro
valG
uid
ance
Alignment
Adoption
WGR&I
Proposal
R&ICTO
Sign-off
EWEABoard
Formal
adoption
ETIPGovernance
SECR.
EW
EA R
&IA
CTIV
ITIE
S
ET
IP
AC
TIV
ITI
ES
R&ICTO
Ap
pro
va
l
Gu
ida
nc
e
Alignment
EWEA
BOARD
Adoption
Steering
Committee24
EERA
8
WGR&I
16
EERA INDUSTRY
ETIP WIND STEERINGCOMMITTEE
R&ICTO
GROUP
ETIP WIND ADVISORYGROUP
ETIP WINDSECRETARIAT
SECRETARIATHosted by EWEA
ETIPWindStructure
ETIPWind Steering Committee
Organisation First name Family nameA2SEA JesperT. Kristensen
ABB Adrian Timbus
DNV GL Lars Landberg
Dong Energy Wind Power Jørn ScharlingHolm
E.ON Climate & Renewables Ralph Chamberlain
EDF EnergiesNouvelles Stéphanie Muller
Iberdrola RenewableEnergy César Yanes Baonza
LM Wind Power John Korsgaard
MHI Vestas OffshoreWind Anders BachAndersen
Renewable EnergySystems Mike Anderson
Senvion Martin Knops
Siemens Wind Power Aidan Cronin
Statoil Rune Yttervik
Vestas Agnar Gudmundsson
EERA JP Wind Coordinator Peter Hauge Madsen
EERA Offshore WindEnergy JohnO. Tande
* EERA to confirm the other academia representatives in the ETIPWind Steering Committee at its AGM in April2016.
ETIPWind Advisory GroupOrganisation Firstname Familyname
A2SEA Hans Schneider
Siemens Wind Power (Chair) Ruediger Knauf
ABB Ernst Scholtz
Acciona Miguel Nunes Polo
Adwen Representation TBC
Dong Energy Wind Power Christina Aabo
E.ON Climate & Renewables Jorgen Bodin
EDF EnergiesNouvelles Pierre-Guy Therond
EDPRenewables Jorge Casillas
ENEL GreenPower Fabrizio Bizzarri
GE Power & WaterRenewables Representation TBC
Iberdrola RenewableEnergy Cristina Heredero
LM Wind Power Roel Schurring
MHI Vestas Offshore Wind Torben Hvid Larsen
Nordex Jorge Scholle
Renewable EnergySystems Mike Anderson
Senvion Bernhard Telgmann
Statoil Rajnish Sharma
Vattenfall Ole Bigum Nielsen
Vestas Anders Vedel
ETIPWind Work Programme 2016
Proposed deliverables:
• Launch ETIPWind website: Link
• Update the SRA
• Input to other research and innovationprocesses
• Workshop and events
Timeline:
MARCH
Launch of website Online survey Validation workshop
• Release of SRA
• Implementation Plan to Global
Leadership in Offshore Wind
• Workshop on R&I
APRIL JUNE SEPTEMBER
Analyst input
Presented by Daniel Fraile
Kick off meeting
Data collection
Industryand stakeholder
surveyGapAnalysis
Validation workshop
MARCH JUNEMAYAPRILMARCH/
APRIL
Outline
• WP1 in anutshell
• Objective of the meeting
• Methodological steps- Presentation and discussion
WP1 in a Nutshell
• Objective
• Assess the level of implementation of the R&l priorities from
SRA/MDS & SET-Plan Integrated Roadmap (SET-PlanIR)
• Provide for recommendations for short, medium and long term
priorities for future R&Ipriorities.
• Inform about the latest technological developments,investment
trends in R&l, regulatory and market frameworks affecting the
implementation of the SRA/MDS and the SET-PlanIR.
• Deliverables
• Detailed work plan: Done
• Status report: implementation of R&I + R&I priorities (Sept 2016)
• Updated status report: implementation of R&I + R&I priorities
(May2018)
WP1 in a Nutshell
Kick-off Meeting
• March
Data Collection
• Feb-March
Survey
• April
Gap Analysis
• May
Validation workshop
• June
Status Report
• Sept
• Methodology andTimeline
1 2 3 4 5 6
Objective of this meeting
1. Align expectations
2. Present Methodology
• Present ongoing work on step 2 (datacollection)
• Feedback and open questions
• Identification of experts
• Detailed discussion on step 3 (survey)
• Type of survey (length, scope,timing)
• Target list
• Initial discussion on Step 4 (Gapanalysis)
• Criteria for weighting ofR&I priorities
• Open Discussion
• Analysis is based on the
SRA/MDS 5 main pillars
• R&I Topics within the SET-
Plan integrated roadmap
are well represented in the
SRA/MDA
Step 2. Data Collection
Step 2. Data Collection
• 28 Sub-categories under 5 Pillars. About 120 R&Itopics
Pillar Sub-category
External
condition:
climate,
wavesand
soil
1.1Measurement systems
1.2Interaction climate-wind turbines
1.3Multi-scale modelling
1.4Wakes
1.5Forecasting
1.6Condition monitoring
1.7Standardization
Wind
turbine
system
s
2.1Wind turbine as a flowdevice
2.2Wind turbine as mechanical
structures/materials
2.3Wind turbine as a grid connectedelectricityplant
2.4Wind turbine as a controlsystem
2.5Innovative concepts along the valuechain and integrated design
2.6Operation and maintenance (O&M)
2.7Standards and certification
Pillar Sub-category
Windenergy
integration
3.1wind power capabilities for ancillary
services provision
3.2Grid connection, transmission and
operation
3.3grid management and powermarkets
Offshore
technolo
gy
4.1Sub-structures
4.2Logistics, assembly and decommissioning
4.3Electrical infrastructure
4.4Wind turbines
4.5Operation and maintenance
4.6External conditions
Market
deployme
nt strategy
5.1Enabling market deployment
5.2Adapting policies
5.3Optimising administrative procedures
5.4Integrating wind to the natural environment
5.5Ensuring public acceptance of windpower
Step 2. Data Collection
INPUT-Two work streams for eachsub-category:
1. Quantitative: based on Key conferences proceedings
• EWEA annualconferences
• Offshore EWEAconferences
• EWEA technicalworkshops
• Wind Integration workshop
• 3 years analysis- number of conf. papers & posters
2. Qualitative: Analysis of most relevant scientific
papers, publicly-funded project supported by experts
views (phone interviews)
• Interview guidelines
• 2-3 experts per pillar
•
Step 2. Data Collection
OUTCOME-Two work streams for eachsub-category:
1. Quantitative:
• Traffic light table- indicators of activities (relativeto
overall efforts and over time)
2. Qualitative:
• Short update on progress and wayforward
• A list of key projects, and peer-reviewedpapers.
Step 2. Data Collection (First Results)Total
Index Category sub-category 2 0 1 3 2 0 1 4 2 0 1 5
1.1 External conditions Measurement systems 22 1 8
1.4 External conditions Wakes 11 9 25
1.5 External conditions Forecasting 22
21
61 60
1.6 External conditions Condition monitoring 2 18
2.1 Wind turbine systems Wind turbine as a flowdevice 11 12 4
2.2 Wind turbine systems Wind turbine as mechanical 50 14 15
2.3 Wind turbine systems Wind turbine as a grid connected electricity 32 26 42
422.4 Wind turbine systems Wind turbine as a control system 51 30
2.5 Wind turbine systems Innovative concepts along the value chainand 11 1 8
2.6 Wind turbine systems Operation and maintenance (O&M) 45 82 43
3.1 Wind energy integration wind power capabilities for ancillary services 34 32 26
3.2 Wind energy integration Grid connection, transmission and operation 48 34 44
3.3 Wind energy integration grid management and power markets 52 49 32
4.1 Offshore technology Sub-structures 42
54
51
0
0
48
38
384.2 Offshore technology Logistics, assembly and decommissioning
4.3 Offshore technology Electrical infrastructure 35
4.4 Offshore technology Wind turbines 32 0 62
4.5 Offshore technology Operation and maintenance 33 0
0
18
4.6 Offshore technology External conditions 17 38
5.1 Market deployment strategy Enabling market deployment 2 4 29
5.2 Market deployment strategy Adapting policies 4 0 0
5.3 Market deployment strategy Optimising administrative procedures 6 5 2
5.4 Market deployment strategy Integrating wind to the natural environment 20 20 27
5.5 Market deployment strategy Ensuring public acceptance of wind power 4 4 2
Step 2. Data Collection (First Results)conference papers
Index Category sub-category 2013 2014 2015
1.1 External conditions Measurement systems 5 0 3
1.4 External conditions Wakes 4 2 6
1.5 External conditions Forecasting 4 17 12
1.6 External conditions Condition monitoring 0 1 1
2.1 Wind turbine systems Wind turbine as a flowdevice 7 2 0
2.2 Wind turbine systems Wind turbine as mechanical 10 8 4
2.3 Wind turbine systems Wind turbine as a grid connectedelectricity 27 20 36
2.4 Wind turbine systems Wind turbine as a controlsystem 16 5 20
2.5 Wind turbine systems Innovative concepts along the value chain and 4 1 1
2.6 Wind turbine systems Operation and maintenance (O&M) 8 42 12
3.1 Wind energy integration wind power capabilities for ancillary services 31 29 22
3.2 Wind energy integration Grid connection, transmission and operation 30 22 34
3.3 Wind energy integration grid management and power markets 35 35 24
4.1 Offshore technology Sub-structures 42 0 38
4.2 Offshore technology Logistics, assembly and decommissioning 54 0 38
4.3 Offshore technology Electrical infrastructure 28 39 21
4.4 Offshore technology Wind turbines 32 0 62
4.5 Offshore technology Operation and maintenance 33 0 18
4.6 Offshore technology External conditions 17 0 38
5.1 Market deployment strategy Enabling market deployment 1 0 7
5.2 Market deployment strategy Adapting policies 4 0 0
5.3 Market deployment strategy Optimising administrative procedures 2 5 1
5.4 Market deployment strategy Integrating wind to the natural environment 5 13 11
5.5 Market deployment strategy Ensuring public acceptance of wind power 4 0 0
Conference Posters
2013 2014 2015
17 1 5
7 7 19
18 44 48
21 1 17
4 10 4
40 6 11
5 6 6
35 25 22
7 0 7
37 40 31
3 3 4
18 12 10
17 14 8
0 0 0
0 0 0
23 9 14
0 0 0
0 0 0
0 0 0
1 4 22
0 0 0
4 0 1
15 7 16
0 4 2
Step 2. Data Collection (First Results)
First results
Caveats:
• Market development strategy- not well covered
• Overall more papers for offshore and grid integration
• Offshore conference is bi-annual
FirstObservations:
• Grid integration & offshore: most popular categories (largededicated
annual conferences)
• External conditions assessment concentrating mostly in off-shore
environment
• Forecasting among top topics within External conditions assessment.
• Within Turbine systems: grid related aspects & O&M the mostaddressed.
Step 2. Data Collection
Issues and open questions:
• Level of analysis- sub-category vs R&I topics
• Offshore& O&M vs. Capabilities for ancillaryservices
• Authorship of papers (Industry vs. academia, EU vsGlobal)
• Pillar 5 (Energy policy and environmental issues): not really
well covered in technical sessions of EWEAEvents.
Step 2. Data Collection
OUTCOME-Two work streams for eachsub-category:
1. Quantitative:
• Traffic light table- indicators of activities (relativeto
overall efforts and over time)
2. Qualitative:
• Short update on progress and wayforward
• A list of key projects, and peer-reviewedpapers.
Step 2. Data Collection
Projects overview on grid integration (analysisongoing)
TopicScope Project title Scope
Funding
source
Results
published
3.1 REPlan National Denmark 2015
3.1 3.3 REServices EU-wide EC-funded 2014
3.1 3.2 3.3 Twenties EU-wide EC-funded 2014
3.3 E-Highways EU-wide EC-funded
BestPaths EU-wide EC-funded
3.1 3.3 R2Wind National Industry 2015
3.2
TenneT AC Projects in Schleswig-
Holstein National Industry 2015
4.3 OffshoreDCProject 2014
Step 2. Data Collection
External conditions: climate, waves andsoil
1.1Measurement systems
Tomas Blodau, Senvion
Taylor Geer, DNV GL
Breanne Gellatly, AXYS
1.2Interaction climate-wind
turbinesLars Landberg, DNV GL
1.3Multi-scale modellingHans Ejsing Jørgensen, DTU
Gil Lizcano, Vortex
1.4WakesJan Coelingh, Nuon
Mike Courtney, DTU
1.5ForecastingLars Landberg, DNV GL
Beatrice Brailey, R&D Specialist, Forecasting DNV GL
1.6Condition monitoring
Hans Ejsing Jørgensen, DTU
Simon Watson, Loughborough University
Sergio Velez, Gamesa
1.7Standardization
Identifying experts (ongoingwork)
Step 2. Data Collection
Wind turbine systems
2.1Wind turbine as a flow device
Christiane Montavon, ANSYS UK Ltd. /
Peter Eecen, ECN/
Bernard Stoevesandt, Fraunhofer-IWES
2.2Wind turbine asmechanical
structures/materials
Gerard van Bussel, TU Delft / Po Weng Chen,
University of Stuttgart
2.3Wind turbine as a grid connected
electricity plantMike Anderson, RESLtd
2.4Wind turbine as a control system
William Leithead, University of Strathclyde/
Marta Barreras, Gamesa /
Ervin Bossanyi, DNV GL
2.5Innovative concepts along the value
chain and integrated design
Peter Jamieson, Senior Technology Advisor,
University of Strathclyde, UnitedKingdom
2.6Operation and maintenance(O&M)Simon Watson, Loughborough Unversity
Stefan Schlie, Siemens
2.7Standards and certification
Identifying experts (ongoingwork)
Step 2. Data Collection
Identifying experts (ongoingwork)
Offshore technology
4.1Sub-structures
4.2Logistics, assemblyand
decommissioning
4.3Electrical infrastructure
4.4Wind turbines
Jesper Mansson, Director, Technical
Business Development, LM Wind Power,
Denmark
4.5Operation and maintenance
Elaine Greig, Head of Department, Offshore
Renewables, DNV GL, United Kingdom
4.6External conditions
Step 2. Data Collection
Market deployment strategy
5.1Enabling market deploymentChristian Jourdain, Gamesa
Michaela O’Donohue,Adwen
5.2Adapting policies
5.3Optimising administrative
procedures
5.4Integrating wind to thenatural
environment
Jeremy Bass, Senior Technical Manager, RES
Tomas Blodau Head of Department Wind andSite,
Senvion
5.5Ensuring public acceptanceof
wind power
Pia Dorfinger, Deutsche Energie-Agentur GmbH
(dena), Germany
Identifying experts (ongoingwork)
Step 3. Industry & Stakeholders survey
Part 1. Assessment level of implementation (sub-category
level- 28)
• Q1. Rate how important is this R&I are for the windsector?
(from 1 to 5)
• Q2. How important do you consider public funding in this
R&I area? (from 1 to 5)
• Q3. What has been the level of research activity in thisfield
in the last 2-3 years? (cold to hot)
Part 2 .Assessment: priority level (R&I level- for selected
sub-categories- Potentially 120 topics )
Question only applying for those rated [4-5] in Q1
• Q4. Rate level of importance of this R&Itopic?
• Q5. What should be the horizon of implementation
(short,mid, long)?
• Q6. Please refer to key papers, projects and
advancement on high priority R&Itopics?
• Q7. Are there other missing R&Itopics?
Step 3. Industry & Stakeholders survey
Communication
• Open to anyone (available at ETIP, EWEA and ECwebsite)
• 3 weeks
• Input treated confidentially- Surveymonkeytool
Target list
• Member of the previous TPWind workinggroups
• Member of EWEA Working Group meetings (offshore,
networks, grid codes, marketdesign)
• Key contacts identified through ETIP Steeringcommittee
• Targeted EWEA mailinglist
Step 3. Industry & Stakeholders survey
Open Questions
• How to balance accuracy of answers withwide
participation?
• Should we have two parallel surveys (onshorevs
offshore)?
Step 4. GapAnalysis
Objective: matching internal findings withsurvey input
Additional
Criteria?
Step 4. GapAnalysis
Outcome of Gap Analysis -> Material for Validationworkshop
• Matrix of R&I topic with indicators
• Discussion paper- result from gapanalysis
Validation Workshop (Step 5)- 3June
Step 4. GapAnalysis
Issues and open questions:
• Which additional criteria needed for assessing (weighting)R&I
topics?
• Is there any need to rank the selected R&Itopics?
Workshop on wind research in a specific
area TBCtoday
Workshop objective: discuss an area of focus of revisedSRA
with wider community to provide additional input
Target audience: industry, academia, research,policy
Venue: EWEA Annual Conference, Congress CentreHamburg
Date: (tentative) afternoon of27 September 2016 (day 1 of
event)
Topic suggestions:
1. Grid Systems, infrastructure and integration
2. Operation & maintenance
3. Industrialisation
4. Offshore Balance of Plant
Topic1 Grid Systems, infrastructure and integration
Sub-
topics
Wind power grid integration, including energy management and balancing
Improved long-distance transmission systems foron-and offshore wind farms incl. installation andO&M
Energy Storage and conversion, including storageat turbine, wind farm and central levels
Innovative, comprehensive and re-configurable energy systems level test facilities
Topic2 Operation & maintenance
Sub-
topics
Standardised and validated methods andsensor
systems for performance measurements and
condition monitoring
Improvements in energy yield from wind farms
through utilization of adaptive and interactivebig
data control
Improvements in reliability and predictability ofwind farms
Data analysis to improve diagnostics anddecision-making
Lifetime optimisation
Topic3 Industrialisation
Sub-
topics
Sequential (in order of LCOE-impact)
standardisation and industrialisation of
requirements, quality standards, materials,
processes, manufacturing and handling/logisticsof
components and systems
Standardisation component testmethods
Development of industrialised, scalable methodologies
Topic4 Offshore Balance of Plant
Sub-topics
Industrialised transport and installationsystems
Innovative and industrialised offshore towersand
foundations, including better understanding of
seabed interactions
Methodologies for analysis of turbine
substructure interaction on and stationkeeping
of floating wind turbines
Innovative and industrialised offshore substations
and cables
Thank you very much for your attention
