Programme booklet 2015

Transcription

Programme booklet 2015
IRPWind/EERA
Joint Programme Wind
R&D
Conference 2015
28th and 29th of September
Amsterdam
In this booklet
Foreword
4
IRPWind
6
Schedule
8
Detailed programme
11
Poster Abstracts
19
Registration
25
Location/Floor plan
27
Travel/Directions
28
Other information
30
Notes
32
The research leading to the results presented during the conference, has received funding from the
European Union Seventh Framework Programme under the agreement 609795. The sole responsibilty for the content of this of the conference bes with the organisers. tt does not necessarily reflect
the opinion of the European Union. Neither the EASME nor the European Commission are responsible for any use that may be made of the information presented at the conference.
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Dear friends and
colleagues of IRPWind
will have a side event with the aim of identifying new collaboration opportunities between
industry and IRPWind. I have high expectations for this.
In the first year of IRPWind the mobility programme got off to a good start with first
exchanges of staff commencing based on 12 applications for exchange. During the first
year we also produced an IRPWind report on outlining a strategy on access granting to
Welcome to this 2nd annual conference of IRPWind. We have
now been well under way with the integrated research
programme for wind energy for 1.5 years. The essence of
IRPWind is to take important steps towards further integration,
alignment and coordination of research activities in Europe.
data. This report will be the basis for future work in IRPWind to enable better access to data.
IRPWind partners plan several actions to realize our ambition of being good role models
such as to ensure a public list of available data sets. Both issues will be addressed during the
conference.
Once again, welcome to the 2nd annual IRPWind conference. I hope we will have 2 days
with inspiring discussions on the future for our European Integrated Research Programme for
Wind Energy.
In order to satisfy our ambitious goals, we need to have a forum, where various stakeholders
can meet and discuss future transnational collaboration. The IRPWind yearly conference is
Peter Hauge Madsen
a unique meeting place and we are delighted to welcome our colleagues from the research
IRPWind Coordinator
community, the wind energy industry as well as the representatives from the European
Commission. During the next 2 days we are gathered to discuss and disseminate IRPWind
results. The conference comprises parallel sessions at sub-programme level as well as
plenary talks from important stakeholders. Several technical and collaborative gaps currently
hampering the next generation of wind energy technologies will be discussed. On day 2 we
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Integrated Research
Programme Wind
EERA JP Wind Management Board
Felix Avia, CENER (ES)
Dr. Peter Eecen, ECN (NL)
Dr. Kurt Rohrig, FhG. IWES (DE)
Dr. Hans Ejsing Jørgensen, DTU Wind (DK)
The aim of the IRPWind is to foster better integration of European research activities in the
Dr. John O. Tande, SINTEF (NO)
field of wind energy research with the aim to accelerate the transition towards a low-carbon
Dr. Denja Lekou, CRES (GR)
economy and maintain and increase European competitiveness. The IRPWind is expected to
Prof. Poul Erik Morthorst, DTU (DK)
both benefit existing priority settings as well as to improve the quality and implementation of
future priority settings through the coordinating effect on the research communities.
EERA JP Wind Steering Committee
An objective is to integrate the various capacities and resources in the joint research
Ariane Frere, Belgian Energy Research Alliance (BERA) (BE)
activities, described in this IRP, with other ongoing European and National projects carried
Antonio Ugarte, CENER (ES)
out by IRPWind partners and/or other members of the European Energy Research Alliance
Claudia Roberta Calidonna, CNR-ISAC (IT)
Joint Programme Wind.
Dr. Panagiotis Chaviaropoulus, NTUA (GR)
Dr. Peter Hauge Madsen, DTU Wind (DK)
The IRPWind and EERA joint programme on wind energy provides the strategic leadership for
Aart van der Pal, ECN (NL)
the medium to long term research to support the European Industrial Initiative on Wind
Dr. Bernhard Lange, FhG. IWES (DE)
Energy in the framework of the Strategic Energy Technology (SET) Plan and provides added
Dr. Ana Estanqueiro, LNEG (PT)
value through:
Dr. Petter Støa, SINTEF (NO)
Abdullah Bestil, Tübitak Uzay (TR)
Strategic leadership of the underpinning research
Dr. Martin Kühn, University of Oldenburg (DE)
Joint prioritisation of research tasks and infrastructure
Prof. Dr. W. Leithead, University of Strathclyde (UK)
Alignment of European and national research efforts
Geert-Jan Bluemink, VTT (FI)
Execution of coordinated and structured research in medium to long-term programmes
Coordination with industry, and Sharing of knowledge and research infrastructure.
EERA JP Wind Advisory Board
Dr. Ndaona Chokani, ETH Zürich (CH)
EERA JP Wind instituted 7 sub-programmes
that make up the Joint Programme:
Prof. Simon Watson, Loughborough University (UK)
1.
Lars Christensen, Vestas (DK)
Wind Conditions coordinated by Dr. Hans Ejsing Jørgensen, DTU Wind (DK)
Mauro Villanueva, Gamesa (ES)
2. Aerodynamics coordinated by Dr. Peter Eecen, ECN (NL)
Antoni Martínez, KIC InnoEnergy (ES)
3. Structures and Materials coordinated by Dr. Denja Lekou, CRES (GR)
Norela Constantinescu, ENTSO-E (BE)
4. Wind Integration coordinated by Dr. Kurt Rohrig, FhG IWES (DE)
5. Offshore Wind Energy coordinated by Dr. John O. Tande, SINTEF (NO)
6. Research Infrastructures coordinated by Dr. Pablo Ayesa Pascual, CENER (ES)
7.
Wind integration coordinated by Prof. Poul Erik Morthorst, DTU (DK)
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Registration
8.00
Presentation by Paul
Verhoef, EC
9.30
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19.00
18.30
18.00
17.30
17.00
16.30
16.00
15.30
Panel discussion
Presentation of Windscanner.eu
14.30
15.00
Presentation by Kristian
Ruby, EWEA
14.00
13.30
13.00
12.30
12.00
11.30
11.00
10.30
10.00
Opening + welcome
Peter Hauge Madsen,
DTU
9.00
8.30
Teleport - Plenary hall
28-Sep
Aerodynamics Peter Eecen
(ECN)
Wind conditions Hans Ejsing
­Jørgensen (DTU)
SP2 Workshop afternoon
Dinner
Networking drinks + posters
SP1 Workshop afternoon
Lunch + poster
SP2 Workshop morning
SP2
SP1
SP1 Workshop morning
Room B
Room A
SP3 Workshop afternoon
SP3 Workshop morning
(SINTEF)
John Olav Tande
Offshore wind -
SP3
Room C
SP7 Workshop afternoon
SP7 Workshop morning
(DTU)
Poul Erik Morthorst
Wind integration -
SP7
Room D
Monday September 28th
Teleport Foyer
Plenary sessions
EERA JP Wind and the
industry
- Innovation market
place
- Network of TTE’s
- Industrial advisory
board
IRPWind WP5 Mobility
SP4 Workshop part 2
09.00 – 09.30 Opening and welcome by Peter Hauge Madsen, IRPWind project coordinator, Head of
SP4 Workshop part 1
Lunch
SP6 Workshop part 1
Department Wind Energy, DTU
Cold Climate
workshop
09.30 – 10.00Keynote speech by Paul Verhoef Head of Unit - New and Renewable Energy Sources,
DG RTD at European Commission
14.00 – 14.30 Keynote speech by Kristian Ruby Chief Policy Officer, EWEA
14.30 – 15.00 Presentation of WindScanner.eu
15.00 – 16.00 Panel discussion
17.30 – 19.00 Networking + poster session
19.00Dinner at Golden Tulip
SP6 Workshop part 2
(Fr.hofer/IWES)
Denja Lekou (CRES)
Kurt Rohrig
and materials -
Room A
Sub- Programme 1 – Wind conditions
Chair: Hans Ejsing Jørgensen (SP coordinator)
Facilitator: Christian Orup Damgaard
10.00 – 10.15 Introduction to wind conditions and an overview of related European/National activities
SP5 Workshop part 2
10.15 – 10.30Analog Ensamble method: application to Resources assessment
Bruno Schyska, Forwind
10.30 – 10.45The Wind Scanner platform for Wind Conditions
Nikola Vasiljevic, DTU
10.45 – 11.00Highlights from the wake conference 2015 in Visby
Jens Nørkjær Sørensen, DTU
16.30
16.00
15.30
15.00
Closing by
Matthijs Soede, EC
Presentation by Mauro
Villanueva, Gamesa
14.30
13.30
13.00
12.30
12.00
11.30
11.00
10.30
14.00
Presentation by Ernst van
Zuijlen, TKI WoZ
SP5 Workshop part 1
10.00
09.30
Presentation by Peter de
Weijs, Westermeerwind
(CENER)
Welcome by Peter Eecen,
ECN
Felix Avia
Research facilities -
Structural design
Grid integration -
Parrallel sessions
SP4
SP6
SP5
Monday September 28th
Hans Ejsing Jørgensen, Head of section DTU
09.00
29-Sep
Teleport - Plenary hall
Room A
Room B
Room C
Room D
Tuesday September 29th
11.00 – 11.30 Questions/Break
11.30 – 11.45Uncertainties in resource assessment (status IEC working group and Measnet)
Martin Strack, WindGuard
11.45 – 12.00Highlights of the EWEAmeso-scale benchmarking exercise
Anna Maria Sempreviva, DTU
12.00 – 12.15Results from the NORCOWE OBLEX-F1 experimental campaign at FINO1,
Benny Svardal, NORCOWE
12:15 – 12-30 Questions
--- break ---
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Room C
Javier Sanz Rodrigo/Pawel Gancarski - CENER
Sub- Programme 3 – Offshore wind
16.15 – 16.30WAsP online - a wind climatology tool for built environment,
Chair: John Olav Tande (SP coordinator)
Facilitator: Martijn van Roermund
16.00 – 16.15Wakebench - status and future perspectives,
Andreas Bechmann, DTU
16.30 – 16.45The European Wind Atlas 1st phase
10.00 – 10.30General introduction to SP offshore
Bernard Lange, Area Director Department of Planning of Wind Farms, Fraunhofer IWES
16.45 – 17.30Discussion on how to link the different research projects, future perspectives SP1
John Olav Tande, Research Manager / Director NOWITECH, SINTEF
10.30 – 11.00FP7 Cluster Design
Hans Ejsing Jørgensen, DTU
Rory Donnelly, R&D Manager, 3E
11.00 – 11.30FP7 Leanwind
Lars Magne Nonås, Senior Research Scientist, MARINTEK
Room B
Sub- Programme 2 – Aerodynamics
Chair: Peter Eecen (SP coordinator)
Facilitator: Lesly Stam
11.30 – 12.00 H2020 Lifes50+
Petter Andreas Berthelsen, Research Manager Ocean Energy, MARINTEK
12.00 – 12.30 IRPWind WP6 “Design of offshore wind farms”
WP6.1: Karsten Schröder (5 min)
10.00 – 10.30Update EERA Aerodynamics
WP6.2: Pawel Gancarski (10 min)
Peter Eecen, Programme Development Manager, ECN
WP6.3: Olimpo Anaya-Lara / William Leithead (5 min)
10.30 – 11.00Avatar, the 10MW blade project from an industrial perspective
QA, moderated by John Olav Tande (5 min)
Henk-Jan Kooijman, Principal Engineer, GE Power & Water
11.00 – 11.30Highlights of the Innwind WP2 project and disseminate results
--- break ---
Helge Aagaard Madsen, DTU
11.30 – 12.00Discussions
16.00 – 17.30SP Offshore Wind discussion
1. Opportunities for further collaborative projects
- Discussion on further progress of SP offshore
2. Progress in the aerodynamics programme – programming for 2016 and extension of scope
- Define input for our work programme for 2016 Moderated by John Olav Tande
3. Collaborative effort within EERA Aerodynamics
--- break --16.00 – 17.15Report on inflow modelling.
How could windscanner technology improve insights and modelling
Prof. Jens Nørkær Sørensen, DTU.
Prof. Carlo Bottasso, TU Muenchen.
Prof. Gerard Schepers, NHL Hogeschool, ECN
Yusik Kim, Postdoc researcher, University of Stuttgart
Benny Svardal, NORCOWE
Helge Aagaard Madsen, Research Specialist, DTU
Bernhard Stoevesandt, Head of Department at Fraunhofer IWES
17.15 – 17.30Discussion on reporting and making impact
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Room D
Sub- Programme 7 – Wind integration – economic and social aspects
Chair: Poul Erik Morthorst (SP coordinator)
Facilitator: Diletta Zeni
Tuesday September 29th
10.00 – 10.20 Introduction to the SP
Plenary sessions
09.00 – 09.30 Welcome by Peter Eecen, Programme Development Manager at ECN, host
Poul Erik Morthorst, Professor/Department Manager DTU management engineering
10.20 – 10.40Public acceptance Bonnie Ram,
09.30 – 10.00Keynote speech by Peter de Weijs, Project Director Windpark Westermeerwind
14.00 – 14.30Cutting off-shore wind costs by 40% - a success story on collaboration
by Ernst van Zuijlen, Director at TKI “Wind at Sea”
Senior Researcher, DTU Wind
10.40 – 11.00Cost of wind
14.30 – 15.00Keynote speech by Mauro Villanueva, Technology Development Director at Gamesa
Gabriela Benveniste, Project Engineer at IREC
16.30 – 17.00Closing the conference by Matthijs Soede, Project Officer IRPWind at the European
11.00 – 12.30 SP7-workshop: Policy influenced technology development
Commission
Introduction to the subject and RT2:
Economic incentives and support mechanisms for wind energy
Room A
- 2 cases
DK-case: Lena Kitzing, researcher at DTU management engineering
Sub- Programme 5 – Research facilities
NL-case: Christine van Zuijlen, SDE+ manager, ECN
Chair: Felix Avia Aranda (SP coordinator)
Facilitator: Diletta Zeni
- Panel discussion
10.00 – 10.30SP5 – project presentation
--- break ---
Antonio Ugarte Olarreaga, CENER
10.30 – 11.00The European WindScanner Facility – WindScanner.eu
16.00 – 17.30 SP7-meeting on Wind integration – economic and social aspects
Søren Siggaard Knudsen, DTU
11.00 – 11.15Meeting of EERA RI Networks
Felix Avia Aranda, CENER
11.15 – 11.40Research Wind Turbines Infrastructures Network
Dr. Chong Ng, R&D Manager - Power Conversion, ORE Catapult
11.40 – 12.05Wind Energy Tunnels Network
Dr. Stephan Barth, Managing Director, ForWind
12.05 – 12.30Network of Testing Facilities of Wind Turbines for Grid Integration
Dr. Oriol Gomis-Bellmunt, Group Leader of Power Electronics, IREC
--- break ---
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15.00 – 15.30Open access to data, the IRPWind proposal
Charlotte Bay Hasager, Senior Scientist DTU
15.30 – 16.30SP5 and the industry
Room
C
Sub- Programme 4 – Grid integration
Chair: Kurt Rohrig (SP coordinator)
Antonio Ugarte Olarreaga, CENER
Facilitator: Christian Orup Damgaard
10.00 – 10.10Introduction
Kurt Rohrig, IWES
Room B
10.10 – 10.30IRPWind WP8 Status report
Sub- Programme 6 – Structural design and materials
WP leaders
10.30 – 10.40AnSER2RES Introduction
Chair: Denja Lekou (SP coordinator)
Facilitator: Lesly Stam
Erkka Rinne, VTT
10.00 – 10.30Introduction
10.40 – 11.00Provision of frequency support by offshore wind farms connected via HVDC links
Denja Lekou, Research Engineer at CRES
10.30 – 11.00Overview of InnWind.Eu Task2.2
Ayman B. Attya, UoS
11.00 – 11.20Power Oscillation Damping contribution from wind power plants
Denja Lekou, Research Engineer at CRES
11.00 – 11.30Windtunnel testing of blade with active & passive control systems
Alessandro Croce, Assistant Professor, Politecnico di Milano
11.30 – 12.00Monitoring offshore foundations
José Luis Domínguez-García, IREC
11.20 – 11.40 Enhanced ancillary services from wind power plants
Nikolas Cutulutis, DTU
11.40 – 12.00HD MMC for platform-less HVDC offshore wind power collection system
Christof Devriendt, Professor and FWO post-doctoral researcher, VUB, BERA
12.00 – 12.30Blade damage detection
Paul McKeever, Dr. Chong Ng, Catapult
12.00 – 12.20Introduction of FCH Nikolaos Lymperopoulos
Raimund Rolfes, Head of the research unit for Wind Energy and Energy System
Technology, Fraunhofer Institute Hannover
FCH
12.20 – 12.30Discussion
15:00 – 16:30Further progress of SP and collaboration with FCH; Input for DOW 2016
--- break --15.00 – 15.20Overview of IRPWind WP7
Denja Lekou, Research Engineer at CRES
15.20 – 15.40Issues in component testing vs. design
Alexandros Antoniou, Senior Scientist, IWES Nordwest
15.40 – 16.00Probabilistic analysis of wind turbine blades
Konstantinos Bacharoudis, CRES
16.00 – 16.20Accelerated aging of composites for blades
Sibrand Raijmaekers, Research Engineer, WMC
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Room
Poster abstracts
D
Side events
1
Facilitator: Martijn van Roermund
10.00 – 12.30EERA JP Wind and the industry
10.00 – 10.10Introduction
Peter Hauge Madsen, Head of Department Wind Energy, DTU
Monitoring of offshore foundations for design optimisation, O&M
decission support and life time assesement: an overview of the
activities of OWI-Lab
10.10 – 11.30Session 1: TTE Network
Christof Devriendt, Wout Weijtjens, Nymfa Noppe, Tim Vebelen, Gert De Sitter
Marcus Leuenberger, Business Development Manager, ECN
- IP issues and other judicial and economic challenges when
collaborating internationally
An overview of the foundation monitoring activities of OWI-lab, the Offshore Wind I­nfrastructure
Session 2: Research meets industry
Lab, will be given. OWI-Lab develops mid- and long-term monitoring solutions for offshore wind
Mauro Villanueva, Technology Development Director, Gamesa
turbines. OWI-lab is currently continuously monitoring 3 monopile foundations and 2 jacket
- Rules of the game when formulating and coordinating international
­foundation within the Belgian north sea The motivation is gaining the insights that are crucial to
projects
minimize construction and installations costs of future offshore wind farms and to extend the life
- Market place where industry meets research
- Towards the creation of an IRPWind industrial advisory board
11.30 – 12.15Wrap-up in plenum
- Lessons learned and Q&A session between the two sessions
(Leuenberger, ECN + Villanueva, Gamesa)
time of existing structures and reduce their operation and maintenance costs.
2
SHM approaches of offshore wind turbine substructures:
­application on simulation data
- Re-cap (Madsen, DTU)
O. Salgado1, F. Martinez1, R. Rodríguez2, A. Rodríguez2, C. Amézqueta3, I. Nuin3
15.00 – 16.00IRPWind WP5 – mobility program
Anna Maria Sempreviva, Head of Section, DTU
1
IK4-IKERLAN, 2Fundación Centro Tecnológico de Componentes (CTC), 3CENER
Claudia Roberta Calidonna, Head of Section, CNR
15.00 – 15.10Information on the Mobility Programme
15.10 – 15.30My mobility experience: Scientific and personal fallout
Olimpo Anaya-Lara, University of Strathclyde
Operation and Maintenance (O&M) costs constitute 20-25% of the total levelised cost per kWh
produced over the lifetime of an offshore wind turbine. A very substantial reduction in O&M costs
15:30 – 16.00Debate on the ideal mobility scheme
through new technological concepts is hence a challenge, and the remote evaluation of actual
16.00 – 16.30Introduction of a new sub-programme “Cold Climate”
status of the whole system is the starting point for the potential improvement.
Ville Lehtomäki, Research Scientist, VTT
This poster presents a collaborative proposal between IK4, CTC and CENER in order to improve ­existing structural health monitoring approaches to detect possible failures on floating
­substructures including mooring and anchoring systems based on simulation data obtained from
dynamic simulation codes.
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3
Robust Controller for Load Mitigation in a Commercial 3 MW Wind
Turbine
4
Experimental and operational structural dynamics identification of
the laboratory scale offshore support structure with uncertainty
assessment.
Aron Pujana-Arrese1, Iciar Font2, Carlo-Enrico Carcangiu2 and Joseba Landaluze1
Marcin Łuczak
IK4-IKERLAN. Arizmendiarreta, 2, E-20500 Arrasate-Mondragon, The Basque Country, Spain
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2
ALSTOM RENOVABLES. Roc Boronat, 78, E-08005 Barcelona, Catalonia, Spain
Institute of Fluid Flow Machinery, Polish Academy of Sciences
The design and analysis of different robust control strategies applied to a commercial 3 MW wind
The poster presents an experimental campaign on the laboratory scale model of the tripod
turbine is presented. An exhaustive simulation analysis is developed with the proposed robust con-
type offshore support structure. The model structure was tested in the different support and
trol strategies and it is compared to the baseline control strategy installed in the commercial wind
­environment configurations: free-free, supported and in the large towing tank conditions. Tripod
turbine in terms of Key Performance Indicators (KPI). The family of linear models extracted from a
model allows to model the propagation of the circumferential crack of the cylinder. The towing
high-fidelity aeroelastic code is used to design the robust control strategies and this software pack-
tank test configuration included the wind tower with the 3 bladed rotor. Rotary support allowed to
age is also used to perform a full set of calculations including both extreme and fatigue load cases.
expose the tested structure to the waves coming from different angles. Test campaign a
­ ccounted
The control objectives for the novel proposed robust control algorithms are improving the regula-
for the different types of sea waves. For the reference modal model of intact and damaged
tion of the generator speed, mitigating the wind effect in the tower fore-aft and side-to-side first
­structure impulse modal test was performed with the stopped rotor and calm water conditions.
modes and damping the drive train mode with the main objectives of mitigating the loads in the
The response of the structure to the wave were measured with 4 bi-axial underwater
wind turbine and improving the generation of electric power.
­accelerometers located on the submerged part of the model and 4 tri-axial accelerometers l­ocated
Overall, the results obtained from this study are very promising in terms of loads and performance.
on the above-water components. Experimental and operational modal analysis were applied to
Load levels are generally aligned with the baseline controller, and even allowing some extra load
identify the structural dynamics of the investigated laboratory scale model for intact and d
­ amaged
reduction, which is a good result considering that the baseline is a mature turbine product.
state, different support and wave patterns. Numerous modal models consisting of the natural
The work presented in this paper is the first fundamental step for the implementation of advanced
­frequencies, mode shapes and corresponding damping coefficients were estimated from the
robust controllers in real commercial wind turbines. Moreover, the robust control strategy has been
measured signals. Comprehensive test matrix allowed to assess the differences in modal model
integrated into the whole control software package and validated through HIL, confirming the
parameters due to the damage, support and environmental loads.
capability of the current control hardware to work with such high ordered state-space represented
robust controllers. The following step consists in performing a comprehensive field test campaign,
in order to complete the validation cycle and make this solution available for industrial applications.
An overview of the foundation monitoring activities of OWI-lab, the Offshore Wind Infrastructure
Lab, will be given. OWI-Lab develops mid- and long-term monitoring solutions for offshore wind
turbines. OWI-lab is currently continuously monitoring 3 monopile foundations and 2 jacket foundation within the Belgian north sea The motivation is gaining the insights that are crucial to minimize construction and installations costs of future offshore wind farms and to extend the life time
of existing structures and reduce their operation and maintenance costs.
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6
Windcrete: Proof of concept
Modelling Complex Systems: The North Seas Offshore Grid and
Future Research.
João Gorenstein Dedecca* ; Rudi A. Hakvoort
Climent Molins
Faculty of Technology, Policy and Management, Delft University of Technology
Universitat Politècnica de Catalunya UPC - BarcelonaTech
Jaffalaan 5, 2628BX Delft, The Netherlands
A proof of concept of a monolithic concrete SPAR platform for FOWT was developed in the
The North Seas offshore grid has two main functions, to connect offshore wind farms and
­framework of the AFOSP KIC-InnoEnergy project (Alternative Floating Platform Designs for
to i­nterconnect power systems in Norther Europe. Many projects address this grid, given its
­Offshore Wind Towers using Low Cost Materials). The AFOSP project consisted in a s­ eries
­importance and it being a priority for the European climate and energy policies. Nonetheless,
of ­experimental and numerical studies aimed at proving the feasibility of the concept and
studies vary in a number of features, and thus to guide future research a review is conducted
­demonstrated promising CAPEX and OPEX reductions. The members of the AFOSP consortium are:
of published works since 2010. This review develops a simple and effective methodology that
GNF, University of Stuttgart and UPC.
can be applied to other energy systems models. It jointly considers the studies of interest, the
­system ­characteristics, a categorization framework and relevant indicators. Most studies focus on
The experiments comprised a set of hydrodynamic tests performed in the CIEM wave flume f­ acility
­investment and operation of the grid using optimization models, but differences in assumptions,
at the UPC, with a 1:100 scale model assuming Froude similitude. The complete experimental
methodology and detail of results publication limit their comparability. Nonetheless, i­ntegrated
campaign included free decay tests, a set of 22 regular wave trains of different periods to determine
typologies frequently present economic, operational and environmental benefits, although
the RAO’s and another set of 21 regular and irregular wave trains in conjunction with a mechanical
the ­reviewed studies do not unambiguously warrant immediate and full cooperation on grid
wind device, simulating the mean thrust force exerted by the wind turbine.
­governance. Lastly, future research should be attentive to the presentation and resolution of data,
assumptions and results, as well as consider the grid characteristics that define system performance
Numerical studies were intended to verify that the design is stable when subjected to design load
and dynamics.
case (DLC) according to the IEC. These studies consisted in coupled dynamic simulations including
the mooring system, the controller and the structural dimensions for a particular location, using
Disclaimer: A previous version of this poster has been presented in the 38th International
the certified coupled aero-servo-hydro-elastic code FAST. IEC load situations include different
­Conference of the International Association of Energy Economics, 2015.
­environmental conditions and technical conditions of the floating system including failure cases.
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Registration
7
Multi-scale procedure for modelling shear-web and spar-cap joint
of wind turbine blat
Each participant must register in person at the registration desk to collect a conference
badge and a program/information booklet before attending any sessions. Please make sure
to wear your badge for admission to all sessions and social events. Participants who have lost
G. Fernandez , H. Usabiaga , D. Vandepitte
1
1
their badge must report to the registration desk to get a new one. Registration times are on
2
Monday 28th and Tuesday 29th of September from 08.00-09.00 at the registration desk on
IK4-IKERLAN, KU Leuven
the first floor of the conference location.
The work focuses on the development of an automated approach that combines a detailed two
Poster
scale structural finite element model of the blade, the Blade Element Momentum approach and 2D
The poster area is located in the Aristo conference venue. See the floorplan of the first floor
CFD code for modelling a blade under stationary wind conditions considering aerodynamic, inertial
for the specific location. Please deliver your poster before Monday 28th of September,
and gravitational loads. The approach should provide more accurate stress-strain values than the
10.00 hours. Do not remove your poster before the end of the conference. The posters are
current beam based approach especially when composite and adhesive progressive damage are
an important part of the scientific program and should be displayed continuously.
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2
considered in the model. It also requires significantly less computational time than the strong-coupled CFD-FEM approach.
Please remove your poster at the end of the conference. Remaining posters will be collected
and taken to ECN.
Besides macro-scale response of the blade, a more localized analysis of a particular subcomponent
8
can be carried out using sub-modelling approach. In this case the approach has been used for pre-
List of participants
dicting stress-strain and failure of the adhesive between spar-cap and shear-web joint.
A full list of conference participants may be collected at the registration desk.
Reduction of fatigue damage equivalent loads In the wind turbine
system through the use bending-twisting coupling induced in
composite wind turbine blades.
Speaker information
All rooms are equipped with laptops and beamers. lease bring your presentation on a
USB–stick.
Altan Kayran
METU Center for Wind Energy
The effect of bending twisting coupling induced in wind turbine blades is investigated for its effectiveness in reducing fatigue damage equivalent loads (DEL) in the whole wind turbine system.
Baseline full GFRP blade and bend-twist coupled blades are also compared in terms of stress in the
critical blade section, tower clearance, dynamic characteristics and cost of the blade. The use of
CFRP material in the main spar caps of bend-twist coupled blades is specifically investigated for its
effectiveness in reducing damage equivalent loads in the whole wind turbine system.
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SP workshops
Each workshop will be hosted by the assigned SP-coordinator. These sessions take place in
Location
Teleport Foyer
different rooms (Room A, B, D and D). You will find the program for each room at the door of
each room, the respective letter and program for that room will be indicated.
Each room will have its own facilitator. This will be either Lesly Stam (ECN), Christian Orup
Damgaard (DTU), Martijn van Roermund (ECN) or Diletta Zeni (EWEA). The contact details can
1st floor
Poster area
be found below. If anything is needed, breaks down or is unclear: let them take care of it.
• Martijn van Roermund:
+31 6 104 545 34
• Lesly Stam:l.stam@ecn.nl
• Christian Orup Damgaard:
Zaal 1.08
Zaal 1.09
Zaal 1.10
Zaal 1.11
Zaal 1.07
Berging
+45 2117 9885
Foyer
Lift
Lift
• Diletta Zeni:Diletta.Zeni@ewea.org
Registration desk
Collecting of presentations
Zaal 1.06
Zaal 1.04
Zaal 1.03
Zaal 1.02
Please provide a PDF version and hand it in at the registration desk or one of the facilitators
of your session. Alternatively you can send your PDF to irpwindconf@ecn.nl. All presentations
will be made available through www.irpwindconf.eu.
Wifi access
Aristo has free wireless internet via KPN Hotspots.
Zaal 2.10
2nd floor
Zaal 2.06
Zaal 2.07
Room 2.08: D Room 2.09: B
Berging
Lift
Room 2.01:
Zaal 2.05
Room 2.04: E
26
Lift
Room 2.03: C
Room 2.02: A
27
luggage
drop off
Zaal 2.13
Travel
Station Sloterdijk
Station Sloterdijk
N
Aristo Accommodaties
Please check http://www.ns.nl/en/travellers/home for the actual train schedule from
Spoor 9/10
(Hemboog)
50
A
N
B
C
D
E
F
A 10
R ing
Einsteinweg
1
Einsteinweg
traat
G
Stratenindex
Einsteinweg
From station Sloterdijk to:
rgerharts
Sara Bu
Bos en
Lommer
Landlust
Haarlemmerweg
Haarlemmerweg
Haarlemmerweg
nw
erf
Molenwerf
Sloterdijk
Ch Ch
Sloterdijkerweg
an an
giw giw
eg eg
Transformatorweg
Transformatorweg
Condensatorweg
eg
Velserw
Transformatorweg
g
rwe
Vels
e
Vels Sloterdijke
rweg
erw
eg
Kabelweg
Transformatorweg
ijk
merd
Van station Sloterdijk naar:
dam
Kabelweg
Kabelweg
Spaa
rn
Condensatorweg
hier staat u
Ha a rlemmerva a rt
Gein
Sloterdijk
Please check http://en.gvb.nl for the actual tram/metro schedule
C
B
A
Mo
le
395
Isolatorweg
lem
Metromap of Amsterdam
F
E
D
Wil
48 348
69 369
61
J
H
G
at
Map of train station Amsterdam Sloterdijk
36
15
15
M
L
K
stra
N
12
Schiphol to Amsterdam Sloterdijk or Amsterdam Central station
82
309
231
Wbus
82
Lee
ven
d
Street name index
1
Belastingdienst
Arlandaweg
Barajasweg
Basisweg
Carrascoplein
Changiweg
Einsteinweg
Gatwickstraat
Haarlemmerweg
Hanedastraat
Hatostraat
Kastrupstraat
Kimpoweg
Kingsfordweg
La Guardiaweg
Naritaweg
Orlyplein
Piarcoplein
Plesostraat
Radarweg
Rhoneweg
Subangstraat
Teleportboulevard
Tempelhofstraat
F2-7
D-F7
A1-7
E4-5
D1-4
A-G1
B2-3
G1-7
B-C5
C1-4
B6-7
F-G3
D-F2
A-C3
D7
C-D5
B-C5
D7
A-G6
B7
F-G5
D2-E6
E2-4
De Roos van Dekamaweg
Chan
3
TM G
4
iss
tra
at
ew
Me
es
Ferry
zlaan
Fra
aat
r-Noordoost
at
Han
straedaat
ps
tra
Ka
str
u
Otopeniweg
c
ncis
us
en
ess
Cla
7
aat
str
Bur
29
Ploege
rstr.
an
n
Joh
raat
ein
k
raat
28
Fockst
G
schst
F
Hien
E
Ha a rlemmerva a rt
Sloterdijk_77x97-v4.indd 1
Haarlemmerweg
D
Naritaweg
C
Plesostraat
Rhoneweg
B
FNV
Heathrowstr.
Barajasweg
eg
gemee
ster
Radarweg
Basisweg
arw
Barajasweg
Kastrupstraat
7
A
Rad
Henk
Radarweg
Arlandaweg
at
Purmerend
Fritz Conijnstraat
6
a
str
rup
Slotervaart
309
eg
6
Zaandam
309
Frit
zC
on
annstra
ijns
at
tr.
arw
st
Ka
395
Schwei
gm
Busstation Elandsgracht
D1-E2
D7
F-G3
D5
B5
nskestr.
Rad
82 W. de Zwijgerlaan – H.de Grootplein –
Belastingdienst
FNV
Hoofdkantoor GVB
Holiday Inn Express
Meiniger Hotel
5
Hendrik Die
Radarweg
Radarweg
rgerstr.
82 Westpoortweg – Velsen Zuid –
Other destinations
Ha a rlemmerva a rt
Orlyplein
Overige
bestemmingen
Subangstraat
Arlandaweg
5
Holiday Inn
Express
Carrascoplein
Haarlemmerweg
Piarcoplein
Meininger
Hotel
Teleportboulevard
Van Hallstraat – Centraal Station
Geuzenveld – Osdorp – Nieuw
Sloten – Schiphol Airport Plaza
IJmuiden
Aristo
Accomodaties
4
Spitsdienst (beperkte dienstregeling)
Abberdaan – Station Sloterdijk
Hanedastraat
369
hier staat u
Basisweg
348
2
Kimpoweg
36 Molenwijk –
231
Haarlemmerweg
Arlandaweg
Tempelhofstraat
La Guardiaweg
Banne Buiksloot
48 Spaarndammerdijk – Centraal StationBorneo Eiland
61 Geuzenveld – Osdorp –
Nieuw Sloten
69 Geuzenveld – Osdorp – Nieuw Sloten –
Schiphol Airport Plaza
Teleportboulevard
La Guardiaweg
3
Station Zuid
Changiweg
Bus
15 Hoofdweg – Haarlemmermeerstation –
Hatostraat
Gatwickstraat
Basisweg
Gein
Ha a rlemmerva a rt
Kingsfordweg
Basisweg
50 Station Zuid – Station Bijlmer ArenA –
50 Isolatorweg
Kingsfordweg
2
Metro
De Kolenkit
Amstelstation
g
Museumplein –
giwe
12 Admiraal De Ruijterweg –
De Roos van Dekamaweg
Tram
Harry Koning
sbe
IJmuiden
Busstation Elandsgracht
11/24/14 11:22 AM
Luggage drop off
Conference dinner
Room 201 is available for luggage drop off. Please take any personal or valuable belongings
Enjoy the conference dinner of the IRP Wind conference at the Golden Tulip hotel
with you. Please check the floorplan of the second floor of Aristo for the exact location.
Amsterdam West. The conference dinner is free of charge. You are automatically registered
when you register for the conference.
Networking event
All participants are invited to take part in the conference drinks, which will take place on
Date: Monday 28th of September, 2015
Time: 19.00 hours
Location: Restaurant Dream (Golden Tulip hotel Amsterdam West)
Molenwerf 1, 1014 AG Amsterdam
Website: www.goldentulipamsterdamwest.com
Monday 28th of September, from 17.00 to 18.30 at the conference venue. The drinks will not
only serve as an initial get-together for social networking in a relaxed atmosphere, it will also
give participants the opportunity to have a look at the presented posters.
During the drinks, bites will be served.
Date:
Monday 28th of September, 2015
Time:
17.00 to 18.30
Location:
Teleport Foyer, Aristo
Conference survey
IRPWind is all about alignment with the industry. That is why this year’s edition has a s­ tronger
presence of industrial representatives at the conference. To maximize the impact of the
IRPWind project, we would like you to complete a survey that will take around 5 minutes to
complete. Answering the questions presented in this survey will help us steering the project
and measure improvement over the years. The results will be made available through the
bi-annual newsletter.
You can find the survey by scanning the QR code, or visiting the link below.
https://survey.enalyzer.com/?pid=f2babf6g
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Notes
Notes
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33
Notes
Notes
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www.irpwindconf.eu
www.irpwind.eu