G. Nofuentes scite author profile

This paper presents the results of an investigation on the spectral losses of photovoltaic (PV) soiling. The transmittance of a glass coupon exposed to natural soiling outdoors in Jaén, southern Spain, has been measured weekly and used to estimate the soiling losses that various types of photovoltaic materials would experience if installed in the same location. The results suggest that measuring the hemispherical transmittance of the soiling accumulated on a PV glass coupon can give enough information to quantify the impact of soiling on energy production. Each PV technology is found to have a preferred spectral region, or a specific single wavelength, for which the transmittance through a PV glass coupon could be used for the best estimation of soiling losses. Overall, considering the average spectral transmittance between the extreme wavelengths of the material-specific absorption band, or the transmittance of soiling at a single wavelength between 500 and 600 nm yields the best estimations for different PV technologies. The results of this work can lead to innovative approaches to detect soiling in the field and to estimate the impact of spectral changes induced by soiling on PV energy production.

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Characterisation of Si-crystalline PV modules by artificial neural networks

Almonacid

et al. 2009

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Analysis of the dependence of the spectral factor of some PV technologies on the solar spectrum distribution

et al. 2014

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Analysis of current and voltage indicators in grid connected PV (photovoltaic) systems working in faulty and partial shading conditions

Silvestre

Kichou

Chouder

et al. 2015

Energy

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To ensure the optimization of the energy generated by grid connected PV (photovoltaic) systems is necessary to plan a strategy of automatic fault detection. The analysis of current and voltage indicators have demonstrated effectiveness in the detection of permanent faults in the PV array in real time as short-circuits or open circuits present in the system. In this paper, the analysis of the evolution of these indicators is focused on the detection of temporary faults due to partial shade on the PV array or disconnection of the inverter in case of grid fluctuations of voltage or frequency to prevent islanding. These situations can be identified by observation of the evolution of both indicators and power losses due to these effects can be evaluated from them. The analysis and experimental validation were carried out in two grid connected PV systems in Spain and Algeria.Peer ReviewedPostprint (author's final draft

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The internal rate of return of photovoltaic grid-connected systems: A comprehensive sensitivity analysis

2010

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Is the average photon energy a unique characteristic of the spectral distribution of global irradiance?

Nofuentes

Gueymard²,

Aguilera

et al. 2017

Solar Energy

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G. Nofuentes

Application and validation of algebraic methods to predict the behaviour of crystalline silicon PV modules in Mediterranean climates

Analysis of spectral effects on the energy yield of different PV (photovoltaic) technologies: The case of four specific sites

Correlating photovoltaic soiling losses to waveband and single-value transmittance measurements

Characterisation of Si-crystalline PV modules by artificial neural networks

Analysis of the dependence of the spectral factor of some PV technologies on the solar spectrum distribution

Analysis of current and voltage indicators in grid connected PV (photovoltaic) systems working in faulty and partial shading conditions

The internal rate of return of photovoltaic grid-connected systems: A comprehensive sensitivity analysis

Is the average photon energy a unique characteristic of the spectral distribution of global irradiance?

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