Abstract
HelioClim-3 (HC3) is a database providing time series of the surface downwelling solar irradiance that are computed from images of the Meteosat satellites. This paper presents the validation results of the hourly global horizontal irradiance (GHI) and direct normal irradiance (DNI), i.e., beam irradiance at normal incidence, of versions four and five of HC3 at seven Egyptian sites. The validation is performed for all-sky conditions, as well as cloud-free conditions. Both versions of HC3 provide similar performances whatever the conditions. Another comparison is made with the estimates provided by the McClear database that is restricted to cloud-free conditions. All databases capture well the temporal variability of the GHI in all conditions, McClear being superior for cloud-free cases. In cloud-free conditions for the GHI, the relative root mean square error (RMSE) are fairly similar, ranging from 6% to 15%; both HC3 databases exhibit a smaller bias than McClear. McClear offers an overall better performance for the cloud-free DNI estimates. For all-sky conditions, the relative RMSE for GHI ranges from 10% to 22%, except one station, while, for the DNI, the results are not so good for the two stations with DNI measurements.
Highlights
The countries of the Middle East and North Africa region are currently interested in partly meeting their electricity demands from solar powered plants [1,2,3]
Of particular interest are historical as well as recent estimates of the surface solar irradiance (SSI), i.e., the downwelling broadband solar irradiance received at ground level on a horizontal plane, and its direct and diffuse components, which are important for the feasibility studies of such plants
The validation of the estimates of global horizontal irradiance (GHI) and direct normal irradiance (DNI) made by respectively HC3v4, HC3v5 and McClear was made by comparing them to the aforementioned 1 h measurements
Summary
The countries of the Middle East and North Africa region are currently interested in partly meeting their electricity demands from solar powered plants [1,2,3]. In 2014, the government of Egypt established a feed-in tariff scheme for electricity generated from solar and wind powered plants [4]. The current plan in Egypt is to install a capacity of 2.3 GW of solar powered plants by 2017 [5]. Of particular interest are historical as well as recent estimates of the surface solar irradiance (SSI), i.e., the downwelling broadband solar irradiance received at ground level on a horizontal plane, and its direct and diffuse components, which are important for the feasibility studies of such plants.
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