Working Group 1: Wind Energy Resource



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Transcription:

Wind Energy Technology Platform Working Group 1: Wind Energy Resource Presented by Ignacio Martí CENER imarti@cener.com Authors: wg1 participants

WG1 Participants Erik Lundtang Petersen (Chairman) Risø DTU. Gregor Giebel (Secretary) Risø DTU. Lars Christian Christensen Vestas. Gerd Habenicht RES. Lars Landberg Garrad Hassan. Paula García Gamesa. Bernhard Lange ISET. Eric Dupont EdF. Joachim Peinke ForWind. Pierre Pinson, Henrik Madsen DTU. Neil Douglas Natural Power. Jose Palma FEUP/CEsA. Rebecca Barthelmie University of Edinburgh. Peter Raftery Airtricity. Leo Jensen DONG. Pep Moreno Alstom (Ecotècnia). Tomas Blodau Konick REPower Frank Albers Windtest Grevenbroich Ignacio Martí CENER.

2030 objectives: 3% vision Knowing the geographic coordinates of the site (flat terrain, complex terrain or offshore), with or without measurements, 2030 techniques will provide estimations of: Wind energy potential with an uncertainty <3% ( resource ). Design wind characteristics with an uncertainty <3% ( design conditions ). Short term forecasting scheme for power production and wind conditions with an uncertainty <3%.

2030 objectives: 3% vision

Expected impacts of 3% vision Technical impact: The 3% vision will lead to improved standards, improved software, site optimised turbines, and an optimal use of the wind energy resource. Economic impact: The cost per installation will be reduced through better site information and a reduced risk on the projects. Necessary to achieve 23% of EU electricity coming from wind by 2030.

Research topics The three research objectives are supported through six research topics: Siting in complex terrain and forested areas, Wakes, Extreme wind speeds, Offshore, Wind profiles at greater heights, and Short term Forecasting. New experimental data needed. Needed tools: remote sensing (e.g. Lidars, Sodars, satellites) and CFD. Results: easy to use numerical wind atlas, both for resource and for extreme winds.

Siting in complex terrain or forested areas Askervein II. A full scale measurement campaign is needed to improve and validate models. Advanced models for wind resource, and turbulence: CFD coupled with mesoscale models. Data assimilation. Best practice guide. Turbulence models and a unified model (global to local scales). New measurement techniques based on remote sensing Standards for wind resource assessment are needed.

Offshore Wind Power Meteorology (I) Establishment of a method to determine the design conditions for offshore sites. Development of standard models for resource assessment. Development of dedicated offshore short term forecasting models. Development of fully integrated wind wavecurrent interaction models.

Offshore Wind Power Meteorology (II) Improve the knowledge about the offshore specific effects in the marine atmosphere. Improvement of NWP models and other met. models for offshore conditions. Development new measurement methods for offshore based on ground (and floating) remote sensors and satellites.

Wakes (I) Data analysis: New measurement campaigns in offshore and complex terrains. 3D measurements of wind and turbulence in the wakes.

Advanced models: Wakes (II) Evaluate CFD models particularly in complex terrain. Better wind farm models. Include stability effects on wakes. Combine power loss and loads from wakes in the same models.

Extreme wind speeds Data analysis and advanced models: Explore the use of Reanalysis data for extremes. Classification scheme for extremes. Develop methods for downscaling of the reanalysis data. Develop a new method for the calculation of extreme winds. Investigate Vref uncertainties. Investigate the coherent structure of the extremes. Produce a Global integrated Extreme and Resources Climate Atlas.

Wind profiles at great heights Data analysis: New measurements of wind and turbulence profiles at 100 metres and above. Advanced models: Implement LES modelling of the wind profile. Methods to derive the boundary layer height in NWP and meso scale models. Investigate the wind profile and boundary layer over complex terrain. 4D modelling of design parameters and turbulence for boundary layer.

Short term forecasting (I) Data analysis and new measurement techniques: Use of real time measurements for very short term forecast for safe grid operation, Better integration of online wind measurements (masts, remote sensing, turbines) to improve average and extreme errors.

Advanced models: Short term forecasting (II) Improved meteorological models. Dedicated models for extreme events. Coupling of wind and wave models. Better characterization of forecast uncertainty. Integration of wind farm data into NWP models and wind power.

More information: secretariat@windplatform.eu

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