"GASP Global" is short for "GASP 1.0 - Global of Atlas of Siting Parameters". It is released with windPRO 3.5+ as a global atlas dataset with the following key features:
Global 250m wind resources, siting parameters & turbine design classification
Builds on DTU GWA (Global Wind Atlas) datasets and EMD's Load Response technology
Coordinate system: Geographical coordinates (EPSG: 4326) in original data
Version: 1.0
Validation and Usage Notes
How accurate is your resource prospecting based on GASP data in windPRO or windPROSPECTING? We have prepared a small validation note - based on data from 241 high quality meteorological towers - that gives you a first hint on bias and uncertainty - read more - HERE.
Need turbulence intensity instead of the GASP windspeed standard deviation? We have prepared a small pdf that describes how to convert from wind speed standard deviations to turbulence intensities - and how to use the two model parameters (A) and (B) to derive the turbulence intensity at any wind speed - read more - HERE.
Availability from EMD's 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
As seen from the tables below, a very wide range of omnidirectional and sectorwise parameters are available from GASP. These parameters are divided into four main categories:
Wind Resources / Atmospheric Parameters
Siting Parameters – Fatigue
Siting Parameters – Extremes
Turbine Design Classification - with recommended turbine class. 3 separate aeroelastic models are used as representative for the 3 heights
50m: WindPACT 1.5MW
100m: NREL 5MW
150m: DTU 10MW
The tables below provides an overview of all parameters available and at which dimensions that they are available. We have used the following dimensions for the GASP parameters: The first four (longitude, latitude, height and sector) are used for the basic parameters; the last three (ws_class, iec_class and turbine_component) are used for the turbine design classification - and are releated to the IEC61400-1 code and the aeroelastic load model. Please note that not all dimensions are relevant or used for every GASP parameter.
Table: List of dimensions in GASP data.
Dimension
Abbreviation
Unit
Range
longitude
lon
deg
180 to -180
latitude
lat
deg
90 to -90
height
h
m
50,100,150
sector
s
deg
0,30,...,330
ws_class
wcl
I,II,III,T
iec_class
iecc
IA+, IA,...IIIC
turbine_component
tc
0,1,2,3
Parameters: Wind Resource
The two tables below show the GASP parameters for wind resource data divided in omnidirectional data [resource-omni] and sectorwise data [resource-sector].
Wind distribution: A (Scale) parameter in Weibull distribution
m/s
lon, lat, h, s
weib_k
Wind distribution: k (shape) parameter in Weibull distribution
lon, lat, h, s
sector_freq
Wind distribution: Sector frequency
lon, lat, h, s
wsp
Wind speed - annual average
m/s
lon, lat, h, s
wpd
Wind power density – annual average
W/m2
lon, lat, h, s
air_dens
Air density (annual mean/average)
kg/m3
lon, lat, h
elevation
Air density (annual mean/average)
kg/m3
lon, lat, h
Parameters: Siting Classification - Wind Extremes
The table below shows the GASP parameters for the extreme event data [siting-extremes]. Please note that this extreme data is only available as omnidirectional parameters.
The two tables below show the GASP parameters for the siting-fatigue parameters - given either omnidirectional or sectorwise data-requests [siting-fatigue-omni, siting-fatigue-sector].
Turbulence offset parameter from IEC 61400-1 (ed4) – P90
m/s
lon, lat, h, s
Parameters: Turbine Design – Loads
The four tables below show the GASP parameters for the turbine design classification. The two main groups are fatigue and extreme load cases, divided into four data-groups so requests is possible for turbine load indexes and iec class recommendations: [turbine-fatigue, turbine-fatigue-recommend, turbine-extreme, turbine-extreme-recommend].
Table: Turbine Design – Fatigue [turbine-fatigue]
Variable
Description
Unit
Dimensions
flsidx
Load index for the fatigue limit state
%
lon, lat, h, iecc, tc
flsidx_w
Load load index for the fatigue limit state with wakes
IEC Class Recommendation – ultimate limit state (ULS) – text
lon, lat, h
License and Attribution
The data is available through a Creative commons 4.0 by attribution license (CC BY 4.0). Please accept the license conditions and use a proper attribution when using this dataset, such as:
GASP 1.0, by EMD and DTU, is a free dataset accessible via windprospecting.com, windPRO and EMD-API.
Acknowledgement
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 (DTU)
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
↑ 1.01.11.21.31.41.5Note: This parameter is windspeed standard deviation. It can be converted into a turbulence intensity - see more at the usage note section above.