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Wind Energy at [email protected]
IFE’s vision: Internationally leading research institute
Turnover:
1MRD
Annual publications:
120
Advanced laboratories:
24
International projects:
>30%
Nasjonaliteter: 37
Forskere: 218
Employees:
600
PhDs: 105
1948: IFA
1980: IFE
Centres for renewable energy:
2
14.000Annual visitors
Nationalities: 32
Researchers: 218
Nuclear technology Radiopharmacy
Fluid Flow and Environmental Technology
Digital Systems Radiopharmaceutical ProductionNuclear Technology, Physics and Safety
Nuclear Waste Management and Decommissioning
Material and Process Technology
Radiopharmaceutical Wholesaler
Radiopharmaceutical R&D
Research and development
A leading research environment in energy, health, digitalization and industrial development
4
IFE Research and DevelopmentFluid Flow and Environmental
TechnologyDigital Systems Material and Process Technology
Solar Energy
Battery Technology
Renewable Energy Systems
Neutron Material Characterization
Computational Materials Processing
Environmental Industrial Processes
Control room and Interaction Design
Human Centred Digitalization
Flow Technology
Wind Energy
Corrosion Technology
Tracer Technology
Environmental AnalysisRisk, Safety and Security
Virtual and Augmented Reality
Intelligent Systems
Automation and User Monitoring
Wind Energy department at IFE
• IFE has had an organization unit with wind energy R&D as primary focus for 40 years
• Offshore wind turbines has been the primary focus the last 12 years.
• Wind energy pinpointed as area of strategic focus for IFE
5
Primary markets for IFE Wind Department
• Offshore wind turbines
• Offshore wind farms
• Onshore wind turbines and farms
6
What we do – R&D for industry
• We have significant experience with most offshore wind turbine concepts, both bottom fixed and floating
• Develop and/or analyze complete offshore wind turbines or their components
• Assist engineering, enabling them do what they want themselves
• Designs detailed realistic wind turbines for the industrial that they can use for internal R&D
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The brace-less concrete semi-submersible
The tension leg buoy (TLB)
What we do – Integrated simulations
• 3DFloat is a state of the art software developed by IFE for simulating complete offshore wind turbine
• Can also be used for other structures exposed to wind and/or waves
• We:• Develop it• Sell it to the industry• Provide simulation services• Customize it to industry project needs
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OO-Star in extreme waves
What we do – CFD
• CFD = Computational Fluid Dynamics
• We use CFD when higher accuracy or details are needed then what simplified models can produce
• We use state of the art commercial tools• Develop validated methods that allows CFD to be
used in new areas• Not just pretty pictures. We are at a stage now
were we can replicate experiments quite accurately
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Replicating OO Star model tests
Replicating experiments with a faulty turbine
Secondary markets for IFE Wind Department
• Other areas where our partners and customers seeks our assistance and our competence can be of help:
• Examples• Structures exposed to wind and/or waves• Floating bridges, 3DFloat is a preferred industry tool for design of the E39 Bjørnafjorden bridge• Floating solar• Top level sports equipment
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Automated CFD optimization of the Bjørnafjorden bridge shape
IFE designed 2019 season cycling helmet
IFE 3DFloatState of the art integrated simulations:• Developed from scratch for OWTs• Advanced wind models• Advanced wind loads• Advanced wave kinematics• Advanced sea loads• Rotor aerodynamics• Advanced structures with large deformations• Eigen frequency analysis• Control systems built in or third party plug-in• Advanced mooring systems• Advanced geotechnics together with NGI• Robust true high order solvers• Extensively validated against experiments and other software• Used by industry
11
Project example: KPN NEXTFARM
• Work: Develops tools that are both very accurate and fast for simulating the loads and performance for all the individual wind turbines in a farm
• Main planed innovation: Will be the first tools that can produce state of the art accuracy simulations for all turbines in a farm at near real time speed
• Industry benefits • Design windfarm with lower LCOE (Levelized Cost of
Energy)• Better operation of wind farm by taking into account
state, hourly wear and production of the individual turbines vs. the electricity price at that time
• Get the most out of an existing farm by life time and life time extension planning and control
• 2018-2021
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Source: NREL
Project example: KPN DIMSELO
• Work: Compare existing and project-developed wave and wave load models with respect to dimensioning loads for offshore wind turbines
• Main innovation: Tool that for the first time made it possible to model highly realistic waves at engineering speed
• Industry benefits • More realistic engineering speed models for waves and
wave loads• Knowledge about how calculated fatigue and extreme
loads vary with different models allowed in standards
• 2014-2018
13
DIMSELO 10 MW Reference Monopile
DIMSELO 10 MW Reference Jacket
Project example: KPN Redwin
• Work: Develop highly realistic integrated engineering models of soil loads on piles and suction bucks
• Main innovation: Tools that for the first time made it possible to get highly realistic soil loads in engineering speed tools.
• Industry benefits • Possible for engineers to simulate offshore wind
turbines with realistic, and not crudely simplified, soil loads
• 2015-2018
14
Source: NGI
Project example: IPN FIRM
• Work: Develop and qualify low costs fiber rope mooring systems for floating OWTs
• Main planed innovation: Industry-usable fiber rope mooring solutions for OWTs
• Industry benefits • Fiber rope moorings costs much less then chain
• 2019-2021
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Source: Equinor Next Hywind farm with fiber rope system moorings?
Source: Equinor
Example project: SIS WIPDOIT
• Work, by Artificial Intelligence methods:• Develop model for performance and load for the
individual wind turbines in farms• Develop model for local short-term wind forecasts for
improved wind farm electricity production prognosis
• Main planed innovation: • Very fast and accurate performance and load
predictions
• Industry benefits :• Reduce the LCOE by enabling improvements within
design, operation and maintenance of wind farms.
• 2018-2019
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Project examples
• KPN Nextfarm: very accurate yet fast practical engineering model for the loads on all the individual turbines in a wind farm
• KPN DIMSELO: Modeling of dimensioning sea loads on OWTs
• KPN Redwin: Realistic engineering modeling of geotechnical loads on bottom fixed OWTs
• IPN FIRM: Develop approved fiber rope mooring for floating OWTs
• IPN: Innovative and economic chain and rope mooring systems for OWTs
• IPN WIFD: Load dampers for OWTs• SVV Bjørnafjorden: Concept selection and design
of the worlds longest floating bridge
• Industry: developed various floating OTW concepts
• Industry: Development and feasibility of 15MW monopile OWTs
• Industry: Development floating solar power plants
• Industry: Hywind Tampen control systems
• SIS: Artificial Intelligence (AI) modelling of performance and loads if individual wind turbines in farms
• FME NOWITECH: Offshore wind research center
• FME Solar PV x 2: Solar energy research center
• FME MoZEES: Zero Emission Energy Systems for Transport (including ships)
• SFI IO Center: Integrated Marine Operations research center
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