Catching Rays: How Bifacial_Radiance Sheds Light on the Future of Solar PV

Research output: NRELPresentation

Abstract

The challenge of energy transition is immediate and immense, with current projections targeting 75 TW of photovoltaics (PV) capacity globally by 2050. Alongside the rapid deployment is the "solar-coaster" ride the PV industry experiences with evolving technologies and novel installation methods. In 2016, NREL developed bifacial_radiance, a python open-source modeling tool for bifacial PV. This tool is a wrapper of the raytracing engine Radiance, which you all know better than us at this workshop. Bifacial_radiance integrates the many characteristics of common PV systems to model irradiance on both the front and rear sides of bifacial PV technology - a technology that now represents 75% of utility-scale deployment in the US. Bifacial_radiance has been pivotal for understanding bifacial system performance, shading, and edge effects, and now agrivoltaics research. It has also helped develop simplified models used in PV due diligence tools for optimizing new deployments or evaluating the performance of existing projects. Now, it's the go-to comparison tool for many university, and industry-developed systems modeling tools, and a pivotal tool for further research in photovoltaics. This talk will cover the needs bifacial_radiance addresses as an open-source tool, its development path, and the opportunity for any raytracer to shine light on the solar industry through research and practical application of modeling in regular site installations and novel setups like agrivoltaics and vertical panels at high latitudes (and even the South Pole!).
Original languageAmerican English
Number of pages71
StatePublished - 2024

Publication series

NamePresented at the 22nd International Radiance Workshop, 26-28 August 2024, Salt Lake City, Utah

NREL Publication Number

  • NREL/PR-5K00-91122

Keywords

  • agrivoltaics
  • albedo
  • bifacial PV
  • bifacial_radiance
  • high-latitude
  • irradiance
  • modeling
  • pySMARTS
  • radiance
  • raytracer
  • raytracing
  • SAM
  • SMARTS
  • vertical PV
  • view factor

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