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Bifacial PV View Factor model
keywords: python, configuration factor model, electrical model mismatch for bifacial modules.
Introduction
bifacialvf is a self-contained view factor (or configuration factor) model which
replicates a 5-row PV system of infinite extent perpendicular to the module
rows. The function returns the irradiance profile along the middle (interior)
row by default, but user interface options include 'first'
, 'interior'
,
'last'
, and 'single'
. Single-axis tracking is supported, and hourly output
files based on TMY inputs are saved. Spatial nonuniformity is reported, with
multiple rear-facing irradiances collected on the back of each module row.
Bilinear interpolation code add-on to bifacialvf (description below) to pre-generate IV arrays and bifacial coefficients, and to examine the energy production with back side irradiance mismatch for either a portrait or landscape module.
Included are IV curves and bifacial info for a Yingli (standard) module.
Pre-requisites
This software is written for Python 2 or 3. NREL recommends Anaconda Python.
Install using pip
bifacialvf is at the Python Package Index (PyPI). Use pip to install the latest release in your conda environment or virtualenv:
(myenv)$ pip install bifacialvf
Install development mode from GitHub
For those interested in contributing to bifacialvf:
- Clone the bifacialvf repository:
$ git clone https://github.com/NREL/bifacialvf.git bifacialvf-main
- Navigate to the repository directory where
setup.py
is located:$ cd bifacialvf-main
- Install via pip in development mode:
$ pip install -e .
Usage
For usage examples, see the Jupyter notebooks in \docs\
License
bifacialvf open source code is copyrighted by the Alliance for Sustainable Energy and licensed with BSD-3-Clause terms, found here.
Citing bifacialVF
If you use bifacial_radiance in a published work, please cite:
Marion, B., MacAlpine, S., Deline, C., Asgharzadeh, A., Toor, F., Riley, D., … Hansen, C. (2017). A Practical Irradiance Model for Bifacial PV Modules: Preprint. In 44th IEEE Photovoltaic Specialists Conference. Washington, DC. https://www.nrel.gov/docs/fy17osti/67847.pdf. NREL/CP-5J00-67847
Please also cite the DOI corresponding to the specific version of bifacialVF that you used. bifacialvf DOIs are listed at Zenodo.org.
Silvana Ovaitt, Chris Deline, Mark Mikofski, & Nick DiOrio. (2022). NREL/bifacialvf: v0.1.8 Release (v0.1.8). Zenodo. https://doi.org/10.5281/zenodo.6369162
Bilinear Interpolation based on the publications:
De Soto, W., Klein, S. A., & Beckman, W. A. (2006). Improvement and validation of a model for photovoltaic array performance. Solar Energy, 80(1), 78–88. https://doi.org/10.1016/j.solener.2005.06.010
Marion, B., Rummel, S., & Anderberg, A. (2004). Current--voltage curve translation by bilinear interpolation. Progress in Photovoltaics: Research and Applications, 12(8), 593–607.
bifacialvf: Original code by Bill Marion, Python translation by Silvana Ayala, Updates by Chris Deline & team Original bilinear interpolation code by Sara MacAlpine, Python translation & Updates by Silvana Ayala PVMismatch add-on: PVmismatch code from PVMismatch, by Sunpower