Concept information
Preferred term
WERATLAS
Definition
- The aim of the JOULE project JOU2-CT93-0390, WERATLAS, is the assessment of the wave energy resource available along the European coasts. To avoid the strong spatial variability associated to coastal topography and geometry, the information which is to be provided as a PC Atlas will cover offshore deep water conditions. Coastal conditions at a site of interest could be estimated from the WERATLAS data using a suitable coastal wave model. Ideally, long term statistics should be based on measured data. Two type of measurements are presently available: 1) long time series at fixed positions, mostly obtained with buoys, 2) extensive measurements in space, but desultory in time, obtained with satellite altimeters. While their overall amount is rapidly growing with time, those are still far from the quantity and spatial coverage required for a generalised statistics. The alternative source is the output of sophisticated wave models, that provide a detailed description of the wave conditions over the whole basin of interest. The limit to the accuracy of their results is mostly determined by the accuracy of the input wind. While the present meteorological models are capable of remarkable accuracy in the description of the surface wind fields, particularly in the open oceans, their quality deteriorates when we move back in time - key are 1987 and 1991, when, following the evolution of computer power, substantial model improvements took place. The two main European sources of information about wind and waves are the European Centre for Medium-Range Weather Forecast (ECMWF, Reading, UK) and the UK Meteorological products from the two centres revealed that ECMWF data was the more accurate data set. We have therefore based our analysis on this source. ECMWF runs daily two wave models, one globally and one for the Mediterranean Sea, since July 1992. To extend the analysis period, the wave model (the third generation WAM model) was run for the Atlantic ocean since 1987 using the locally archived wind fields. This has not been possible for the Mediterranean Sea, because of the low quality of the wind fields in this area before the latest improvement. The wave model data are being validated, and possibly calibrated, using available buoy and satellite data. Note that the calibration is possible only under certain conditions (spatial uniformity being the stringent one) and after a careful screening of the data with respect to the height, period and direction. Where the wave model results are less reliable, we use only the available measured data. This is the case for the Norwegian Sea (near the northern limit of the model) and the North Sea (due to the coarse resolution used in the Atlantic wave model). We summarise below the main characteristics and the locations of the available data. ATLANTIC OCEAN 1. Wave modelling grid resolution 3 deg x 3 deg period: 1987-1995 information: Hs, TTheta, TP, Theta 2. Measurement Buoys Norwegian Sea (data provided by OCEANOR) Moere Haltenbanken Traenabanken Vesteraalbanken Nordkappbanken Utsira Tromsoflaket North Sea (data provided by RIKZ, Netherlands) AUK K13 North Atlantic (for verification/calibration) West Shetland (UK) South Uist (UK) Figueira da Foz (PT) Extensive satellite altimeter data (Geosat, ERS-1 and Topex-Poseidon). MEDITERRANEAN SEA 1. Wave modelling grid resolution 3 deg x 3 deg period: 1992-1995 information: Hs, TTheta, TP, Theta 2. Measurement Buoys Of the several available stations, depending on their location and extension in time, we have used Alghero (Italy) Palma (Spain) Satellite data have been used in the eastern Mediterranean Sea. (en)
Broader concept
- V - Z (en)
URI
https://gcmd.earthdata.nasa.gov/kms/concept/e98627c4-0bc4-4a98-8159-f611860fb78c
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