Prediction of Solar Global Radiation in Bogotá Colombia Based on Mathematical Models

It has been performed a simple simulation and calculation on solar energy collection which is used indirectly to power a thermoacoustic prime mover by producing pressurized hot steam which would supply thermal energy to the prime mover via sealed-off hot heat exchangers. The solar energy collection took place in Yogyakarta City - Indonesia where the average energy of solar global radiation of 4.8 kWh/m2/day (17.3MJ/m2/day) is available around the year. The calculation including the amount of the remaining heat stored, steam pressure, and steam temperature for various areas of the collector unit (Fresnel lens) and volume of water, were done as a function of time for several days. We found that appropriate combinations of lens area and water volume would enable us to operate the thermoacoustic prime mover continuously all day and night.

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Erratum to: A linear genetic programming approach for the prediction of solar global radiation

Neural Computing and Applications ◽

10.1007/s00521-012-1128-6 ◽

2012 ◽

Vol 23 (3-4) ◽

pp. 1205-1205

Author(s):

Hassan Shavandi ◽

Sara Saeidi Ramiyani

Keyword(s):

Genetic Programming ◽

Global Radiation ◽

Programming Approach ◽

Linear Genetic Programming ◽

Solar Global Radiation

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Modelling of UV radiation variations at different time scales

Annales Geophysicae ◽

10.5194/angeo-26-441-2008 ◽

2008 ◽

Vol 26 (3) ◽

pp. 441-446 ◽

Cited By ~ 12

Author(s):

J. L. Borkowski

Keyword(s):

Uv Radiation ◽

Time Scales ◽

Time Scale ◽

Global Radiation ◽

Regression Method ◽

Ozone Content ◽

Explanatory Variables ◽

Solar Uv ◽

Solar Global Radiation ◽

Different Time Scales

Abstract. Solar UV radiation variability in the period 1976–2006 is discussed with respect to the relative changes in the solar global radiation, ozone content, and cloudiness. All the variables were decomposed into separate components, representing variations of different time scales, using wavelet multi-resolution decomposition. The response of the UV radiation to the changes in the solar global radiation, ozone content, and cloudiness depends on the time scale, therefore, it seems reasonable to model separately the relation between UV and explanatory variables at different time scales. The wavelet components of the UV series are modelled and summed to obtain the fit of observed series. The results show that the coarser time scale components can be modelled with greater accuracy than fine scale components and the fitted values calculated by this method are in better agreement with observed values than values calculated by the regression method, in which variables were not decomposed. The residual standard error in the case of modelling with the use of wavelets is reduced by 14% in comparison to the regression method without decomposition.

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Modelling and Predicting of the Characteristics of a Photovoltaic Generator on a Horizontal and Tilted Surface

International Journal of Electrical and Computer Engineering (IJECE) ◽

10.11591/ijece.v6i6.11740 ◽

2016 ◽

Vol 6 (6) ◽

pp. 2557

Author(s):

Mustapha Elyaqouti ◽

Lahoussine Bouhouch ◽

Ahmed Ihlal

Keyword(s):

Experimental Data ◽

Solar Radiation ◽

Mathematical Models ◽

Electric Power ◽

Global Radiation ◽

Meteorological Station ◽

Output Characteristic ◽

Electrical Parameters ◽

Incident Solar Radiation ◽

Tilted Surface

In the present paper, we will attempt to predict the Ipv-Vpv output characteristic of a photovoltaic generator (PVG) and consequently the generated electric power. This will be possible through modeling, extracting the electrical parameters of the PVG under study and also, by estimating the global incident solar radiation, on a surface, first horizontally, and then tilted to a given angle. Mathematical models developed in Matlab, to characterize the studied PVG are validated by experimental data of the PVG manufacture. While models associated with global radiation are validated by measurements taken by the meteorological station installed on the laboratory site ERTAIER (Team for Research in Technology and Advanced Engineering of Renewable Energies) of Higher School of Technology Agadir (ESTA).

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