Programme for the visit 17 November 2016 by

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1 SARETEC Study Tour Delegation visit to DTU Risø Campus 17 November 2016 This material is not for public distribution. Any use of the material must be given the appropriate reference: Source: DTU Wind Energy. For users other than the SARETEC Study Tour members visiting DTU 15 and 17 November 2016, prior permission must be obtained before using this material. Programme for the visit 17 November 2016 by SARETEC Study Tour delegation 10:00 Welcome Introduction to DTU and DTU Wind Energy Jens Carsten Hansen 10:30 Introduction to DTU Electrical Engineering Per Nørgård 11:00 Visit to SYSLab and facilities of DTU Electrical Engineering Per Nørgård 12:00 Lunch 13:00 Presentations 13:00 - Wind power integration and wind power plants Poul Sørensen 13:20 - Forecasting Andrea Hahmann 13:30 - Wind farm planning and project development Tom Cronin 13:45 - Wind energy education in DTU Tom Cronin 14:00 - Modelling to measurements and back Niels G. Mortensen 14:20 - Research infrastructure and measurements at DTU Wind Energy Poul Hummelshøj 14:50 - Test station(s) and wind turbines Søren Lind 15:00 Visit to Wind turbine test facilities Søren Lind 15:30 End of visit 1

2 DTU Mission To develop and create value using the natural sciences and the technical sciences to benefit society. HC Ørsted 1829 Education Innovation Public and Private Sector Services Research DTU departments Departments with major sustainable energy research activities 2

3 One university many locations DTU Lyngby Campus DTU Ballerup Campus DTU Risø Campus Staff and students 5,832 human resources (FTEs) 10,631 full-time students 21% 43% researchers and educators (VIP) in support functions 29% 38% BEng MSc 36% PhD fellows* 33% BSc *Employees only 3

4 Education Year Bachelor in Eng. 3 1 / 2 year programme upper secondary education/ high school BSc in Eng. 3-year BSc MSc in Eng. 2-year MSc Ph.d. 3-year PhD BEng BSc MSc 18 programmes programmes 17 programmes joint international MSc programmes in collaboration with partner universities Finances The money comes from Annual revenue 660 million which is spent on 15% 6% 7% 38% 7% 12% 21% 60% 34% research (state) external funds for research education commercial revenue other revenues staff other operating costs plant and building operations depreciation and amortization 4

5 DTU in the Leiden Ranking (2016) Proportion of top 10% publications #1 in the Nordic region #21 in Europe #66 in the world Collaborative publications with industry #2 in the Nordic region #4 in Europe #6 in the world 9 DTU in the ShanghaiRanking (2016) 10 5

6 Department of Wind Energy Peter Hauge Madsen Head of Department History 6

7 Raison d etre Purpose: To develop wind energy to meet essential societal challenges on climate, job creation and growth. Mission: DTU Wind Energy must develop and create value from natural and technical science for the benefit of the society with focus on the wind energy sector. Vision: DTU Wind Energy is the preferred university partner within wind energy. 7

8 Technology development: Science (DTU) industry Concept development Documentation Development Industrialization Demonstration Proof of concept System test Design basis Basic design requirements System approval Applied research, design tools, resource mapping Int. standardization Basic strategic research Integrated tools Validation Patents and education DTU Wind Energy Sections and Programmes DTU Wind Energy Resource Assessment Modelling Meteorology and Remote Sensing Integration and Planning Loads and Control Fluid Mechanics Aerodynamic Design Structures and Component Design Test and Measurements Material Science & Characterization Composites & Materials Mechanics Siting and integration Offshore wind energy Wind turbine technology Education and teaching Research based consultancy and tests 8

9 Siting and Integration Atmospheric modelling from climate to energy production Prediction of site-specific loads and performance Wind farm and turbine control, layout optimization and system services Variability and integration of wind power in the power system Planning and public perception, including acoustic effects Offshore Wind Energy focus fields Offshore external conditions, including met-ocean and uncertainty quantification Offshore WT system design complex, including design for full life cycle Structural component design, as well as optimizations methods, new concepts, materials selection and surface engineering for offshore structures Offshore WT and farm control, internal grid and transmission and forecasting O&M and repair for offshore installations, including design for this and failure analysis. Logistical methods for O&M and installation 9

10 Wind Turbine Technology focus fields Rotor design model complex, including uncertainty quantification Test and validation of turbines and components Existing and new materials including materials design, processing and performance as well as implementation in design New concepts, components and their design fundamentals Design for O&M, lifetime prediction and extension, repair and design upgrade Research based consultancy and tests Wind measurements Calibration tests Accredited wind turbine testing R&D measurements Development of experimental verification of rotor blade design methods Experimental development of verification methods of existing and new materials and structures Accredited testing of materials Research based consultancy to authorities and industries National and international The Danish Technical Certification Scheme Standardization 10

11 Jobs in the wind energy sector Europe: EWEA estimates: jobs in 2010 (30 % from 2007) jobs in jobs in 2030 Denmark: Danmark: Wind energy research - Comparisons No. of publ Web of Science - Publications Denmark Germany Netherlands England Spain USA China Web of Science , topic: "wind energy" OR "wind power" OR wind turbine" OR "wind farm" China USA Spain England Netherlands Germany Denmark China USA Spain England Netherlands Germany Denmark Public Citations

12 Research and test facilities NREL TUM UC Boulder Umass Amherst Univ. Strathclyde Univ. Oldenburg NTNU NTUA Univ. Delft AAU DTU Publications Research and Test Facilities Full-scale testing facilities (Østerild and Høvsøre) Blade tests (Blaest) LORC Nacelle tests Support structures Climate chambers Windscanner Research turbines National Wind Tunnel Large scale structural test facility (Villum foundation) Lab facilities and other facilities Web of Science , topic: "wind energy" OR "wind power" OR wind turbine" OR "wind farm" International partnerships such as e.g. TPWIND and EERA in Europe The EERA Joint Programme on Wind Energy aims at accelerating the realization of the EU SET-plan goals and to provide added value through: Strategic leadership of the underpinning research Joint prioritisation of research tasks and infrastructure Alignment of European and national research efforts Coordination with industry, and Sharing of knowledge and research infrastructure. Application areas Enabling research areas Wind Conditions Aerodynamics Structures and Materials Wind Integration Research Infrastructure Offshore Wind farms 12

13 DTU collaboration with the wind industry Collaborative research Software with training Licenses / patents Technology development services Applied R&D Consulting: Analysis and studies Testing & measurements International consulting Education and training PhD programmes Training courses Technical Certification Scheme for wind turbines Standards development Research creates value -if and whenimplemented in society Thank you for your attention 13