Analysis and Validation of Spectral Irradiance Simulations for 75 kW Bifacial Solar Test Field

Mark Monarch, Silvana Pelaez

Research output: NRELPoster

Abstract

This work investigates how the spectrum of irradiance incident on the rear of bifacial modules impacts their performance. Light incident on the rear of bifacial modules can be reflected from the ground, mounting structures, and other nearby objects, causing both the intensity and spectrum to be modified. As a result, PV cells and sensors with different spectral responses report different values for the rear irradiance, leading to increased uncertainty when modeling performance. Here, we calculate the spectral irradiance incident on the rear of modules through raytrace simulations and validate with measured field data collected from a 75kW single-axis-tracked bifacial test site. Spectral responses for different sensors and PV cells are applied and compared with field measurements for four days. Based on these results, a method for improving non-spectral simulations is proposed. In addition, a linear regression is applied to the modeled spectral results as a method to gain insight into the contributions of ground reflected light to total rear irradiance.
Original languageAmerican English
StatePublished - 2020

Publication series

NamePresented at the NREL 2020 Summer Intern Poster Symposium, 5 August 2020

NREL Publication Number

  • NREL/PO-5K00-77582

Keywords

  • bifacial photovoltaics
  • irradiance modeling
  • spectra
  • spectral albedo

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