Solar resource assessment at high latitude regions

Autor: Babar, Bilal
Přispěvatelé: Tobias, Bostrom
Jazyk: angličtina
Rok vydání: 2019
Předmět:
Popis: There has been a growing interest in accurately estimating surface solar radiation at high latitude locations. From a Scandinavian perspective, the installed solar photovoltaic share is increasing, primarily because of the declining cost of these systems, the introduction of various economic incentives and societal push to generate one’s own clean power. In the coming years, it is anticipated that the share of photovoltaics in the energy mix of Scandinavia will increase substantially. One of the main deterrent in an accurate estimation of surface solar radiation is the limited coverage of geostationary satellites. These satellites, which are widely used globally to estimate solar radiation, do not provide coverage above 65ºN. Alternatively, polar orbiting satellites can be used to estimate surface solar radiation but a low sensing frequency and difficulties in differentiating clouds from snow-covered surfaces result in a large number of missing values in the data. Moreover, reanalyses also provide surface solar radiation estimates and in recent years, it is seen that the accuracy of reanalyses with respect surface solar radiation is getting better. This thesis starts with providing an evaluation and comparative analyses of different solar radiation datasets for high latitude locations. First, an empirical model based on intra-day temperature differences and relative humidity is proposed. This model can be used at meteorological stations that do not have dedicated equipment to estimate surface solar radiation. Then, a comparative analysis is performed for Norwegian locations in which four different models were evaluated. It was found that satellite databases are more accurate than reanalyses and empirical models. However, satellite databases were found to underestimate solar radiation while reanalyses were found to overestimate it. After this, a study was performed to evaluate the CLARA-A1 and CLARA-A2 polar orbiting satellite based datasets. It was found that the CLARA-A2 dataset has less number of missing values but mostly the increase in data is at snow-covered surfaces. The data in CLARA-A2 has higher accuracy than CLARA-A1, but at these new data points which were previously not available in CLARA-A1, the errors are very large. Finally, a novel regression-based solar radiation dataset is proposed here that uses one polar orbiting satellite dataset (CLARA-A2), one global reanalysis (ERA5), and auxiliary data based on Sun-Earth geometric relationships. The proposed dataset has better accuracy and precision than CLARA-A2 and ERA5 datasets.
Databáze: OpenAIRE