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Simulation of Bifacial and Monofacial Silicon Solar Cell Short-Circuit Current Density Under Measured Spectro-Angular Solar Irradiance

Shweta Pal, Angèle Reinders, Rebecca Saive

2020IEEE Journal of Photovoltaics30 citationsDOIOpen Access PDF

Abstract

In this article, we simulated the performance of bifacial and monofacial silicon heterojunction solar cells under measured spectro-angular solar irradiance. We developed a new setup and procedure to measure spectro-angular irradiance over a wide range of orientations. Measurements were executed in Enschede, the Netherlands (52°23' N, 6°85' E). Using this measured multi-dimensional input irradiance along with SunSolve simulated external quantum efficiency for various cells, we determined the short-circuit current density of bifacial and monofacial silicon heterojunction solar cells. We conclude that monofacial cells perform marginally better than bifacial cells for front-side illumination (up to 3.0% more for direct sun) and bifacial cells perform significantly better than monofacial cells (higher output ranging from 20.1% to 68.1%), under diffuse irradiance. We compared our results with a well-monitored roof-top solar module set-up and found good agreement for clear sky days (accuracy 1.1%-8.5%).

Topics & Concepts

IrradianceSiliconSolar irradianceMaterials scienceOpticsQuantum efficiencyOptoelectronicsEnvironmental scienceAtmospheric sciencesPhysicssolar cell performance optimizationPhotovoltaic System Optimization TechniquesSilicon and Solar Cell Technologies
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