Abstract:
Due to the integration of fluctuating weather-dependent energy sources into the grid
the importance of weather and power forecasts grows constantly. This paper describes the
implementation of a short-term forecast of solar surface irradiance named SESORA (seamless sola
radiation). It is based on the the optical flow of effective cloud albedo and available for Germany
and parts of Europe. After the clouds are shifted by applying cloud motion vectors, solar radiation i
calculated with SPECMAGIC NOW(Spectrally Resolved Mesoscale Atmospheric Global Irradianc
Code), which computes the global irradiation spectrally resolved from satellite imagery. Due to the
high spatial and temporal resolution of satellite measurements, solar radiation can be forecasted
from 15 min up to 4 h or more with a spatial resolution of 0.05. An extensive validation of thi
short-term forecast is presented in this study containing two different validations based on eithe
area or stations. The results are very promising as the mean RMSE (Root Mean Square Error) of thi
study equals 59W/m2 (absolute bias = 42W/m2) after 15 min, reaches its maximum of 142W/m
(absolute bias = 97W/m2) after 165 min, and slowly decreases after that due to the setting of the sun
After a brief description of the method itself and the method of the validation the results will be
presented and discussed.