RASP Sweden

From Wiki-WindPRO
Jump to navigation Jump to search
Wind Resouces in 100m height for Sweden. RASP-Sweden data accessed through windPROSPECTING.
Flow inclination in 100m height at Stor Rotliden Wind Farm, Sweden. RASP data accessed through windPRO 3.5.

Introduction

'RASP-Sweden 0.3 (calibrated)' is a calibrated Regional Atlas of Siting Parameters (RASP) for Sweden for wind turbine resource evaluation and siting. A geospatial calibration procedure has been used to remove bias and reduce errors in the 'raw' GASP parameters. The dataset is released in windPRO 3.5+ and holds the following key features:

  • Regional Coverage: Sweden
  • Geospatially calibrated parmeters, 250m grid resolution
  • Parameters available: wind resource, siting parameters & turbine design classification
  • Builds on DTU GWA (Global Wind Atlas) datasets and EMD's Load Response technology
  • Is developed in the GASP project - a joint R&D project by EMD and DTU

Dataset Overview

  • Spatial coverage:
    • Onshore: Swedish National Coverage - and up to 50km from Swedish borders
    • Offshore: Areas are covered up to approximately 50 km from the coastline
  • Resolution:
    • Horizontal: 250m in grid resolution
    • Vertical: 100m and 150m hub height
  • Data-type: Atlas
  • Coordinate system: Geographical coordinates (EPSG: 4326) in original data
  • Version: 0.3 (this dataset is a demonstration dataset, and it is currently in beta release)

Validation and Usage Notes

  • How accurate is your resource and load-analysis based on GASP and RASP data - wihtin windPRO or windPROSPECTING?
    We have prepared a small validation note - based on data from 50+ high quality meteorological towers in Sweden - that gives you a first hint on bias and uncertainty - read more - here.
    If you are interested in the global GASP-validation (based on 241 masts), that is availble from the wiki-page for GASP or HERE.

Availability from within EMD software

  • windPRO: In 'Data' menu click 'Siting parameters (GASP etc)' to access the download tool. Data is loaded into a result layer with a .siteres file acting as the data-container.
    • The .siteres file can be used in PARK, Site Compliance, Load Response and Optimization calculations.
  • windPROSPECTING: GASP data is available through the data-tab named 'Site-prospecting'. Free access to windPROSPECTING - here.
    • windprospecting offers spatial view of omnidirectinal parameters and detailed point-data with directional results and statistics.
  • EMD-API: Read more at the dedicated wiki-page for our Global Atlas Data Services - here. If you are accessing the GASP data from within the EMD-API, you will use the parameter group-names in order to request specific data-packages [resource-omni, resource-sector, siting-extremes, siting-fatigue-omni, siting-fatigue-sector, turbine-fatigue, turbine-fatigue-recommend, turbine-extreme, turbine-extreme-recommend].

Parameters and Dimensions

For the list of parameters available - please see the GASP-Global dataset.
The RASP-Sweden set of parameters are similar to the GASP-Global, however the vertical dimension is currently limited to 100m and 150m a.g.l. (as opposed to the GASP-Global with 3 heights of 50m, 100m and 150m).

Attribution

If data from this dataset is used within any private or public disseminations, then EMD and its data providers must be acknowledged.

Source: 
RASP-Sweden version 0.3 is a regional atlas of site parameters accessible via windprospecting.com, windPRO and EMD-API.
This dataset builds and extends upon the GASP 1.0 dataset - developed by EMD and DTU.

Acknowledgement

  • RASP Sweden was made as a part of the GASP-Project. GASP is the result of a BIG collective effort by many people at: EMD International A/S & DTU Wind Energy, with overall project manager Xiaoli Larsén
  • Develoment and integration of this dataset into EMD services was done through the GASP project which is co-funded by the EUDP and the Danish Energy Agency

External Links & References

  • GASP Project Home-Page at DTU - here
  • A peer-reviewed paper is being prepared and will be referenced here as the main reference for the GASP methods and technologies