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Figure 1 - Elevation map with Z-transect and met mast locations that takes place in the Alex17 benchmark

The ALEX17 benchmark: WRF-Meteodyn WT’s wind speed BIAS lower than 1%, with less than 2 hours computing time

The ALEX17 diurnal cycles in complex terrain benchmark (J. Sanz Rodrigo et al 2021 J. Phys.: Conf. Ser. 1934 012002) was the last experiment within the New European Wind Atlas (NEWA) project. Its objective was to identify the wind conditions upstream of the Alaiz Site in order to validate flow models. The site in question is a complex terrain one located near Pamplona, Spain. An elevation map of the site is displayed in figure 1. This benchmark was intended for flow models that can...

Terrain types in IEC TR61400-12-4 standard

The new IEC TR 61400-12-4 standard: improvement of numerical flow modeling

Since June 2016, Meteodyn collaborated with other firms on the development of this new IEC standard. Intitled “Numerical site calibration for power performance testing of wind turbines”, this new standard is part 12-4 of the TC 88 – Wind energy generation systems. Finally, after 4 years of work, verification, validation and deliberation, the IEC standard has been published in September 2020. Bringing together the latest advances in numerical flow modeling, its aim is to improve the...

Meteodyn WT - The multi-mast tool

The multi-mast tool is available in the synthesis section of the Meteodyn WT Software. It enables the use of several measurement masts and/or several LiDARS as input to the synthesis. The objective of the Synthesis is to automatically calculate the output of wind turbines as well as all wind characteristics for a site from the following: - The results of directional CFD calculations carried out previously. - The power and thrust curves of each wind turbine. - The meteorological data. The...

Benchmark numerical site calibration - Alaiz Case

BENCHMARK: Numerical Site Calibration – The Alaiz Case

Meteodyn is launching a benchmark on Numerical Site Calibration in support to the IEC61400-12-4 working group. The benchmark is led under the support of the IEA-WindTask 31 “Wakebench” and in collaboration with CENER, which provided the site calibration validation data. Special thanks to Javier Sanz Rodrigo for his help and support in organizing this benchmark.

Meteodyn to participate to Wakebench, Task 31 – IEA Wind TCP

Meteodyn will participate on June 17, 2020 to the IEA Task 31 Online meeting in order to close this task and start discussing a new one for the Wakebench community. Started in June 2018, Wakebench is a research Task for the International Energy Agency Wind Technology Collaboration Programme (IEA Wind TCP). Its aim is to create a forum for experts in wind farm flow modeling to set up a framework for verification, validation and uncertainty quantification.

WindEurope Technology Workshop – Resource Assessment & Analysis of Operating Wind Farms

Would you like to learn about the latest research advances that improve wind resource assessment and the analysis of operating wind farms? Join us at WindEurope Technology Workshop online event from June 8 to 11! Two of Meteodyn's researchers will be there to share their experience, present their latest insights and answer all of your questions on these two important topics. Learn more about it below.

News

The ALEX17 benchmark: WRF-Meteodyn WT’s wind speed BIAS lower than 1%, with less than 2 hours computing time

The new IEC TR 61400-12-4 standard: improvement of numerical flow modeling

Meteodyn WT - The multi-mast tool

BENCHMARK: Numerical Site Calibration – The Alaiz Case

Meteodyn to participate to Wakebench, Task 31 – IEA Wind TCP

WindEurope Technology Workshop – Resource Assessment & Analysis of Operating Wind Farms