This is one of over 100 publications that references SunSolve results.
Title
The Optimal Tilt Angle of Monofacial and Bifacial Modules on Single-Axis Trackers
Abstract
The optimal tilt βopt of the modules in a single-axis tracker is often determined by assuming all sunlight is direct and ground reflectance is zero. Prior works, however, have demonstrated that βopt is smaller when diffuse light is significant. In this article, we determine how βopt decreases as the conditions change from clear sky to overcast, accounting for many complicated effects like row-to-row shading of diffuse light, ground reflection, structural shading, cell-to-cell mismatch, and angular and spectral dependencies. We find that when compared to monofacial systems, bifacial systems tend to have a higher βopt when it is cloudier and a lower βopt when it is sunnier. We also quantify the increase in annual yield that arises when accounting for indirect light at three example sites with different climates, finding it to be ∼30% lower for a bifacial system than a monofacial system; the gain was 0.8%-1.5% for bifacial systems and 1.1%-2.1% for monofacial systems, where the highest gain was attained in the cloudiest climate.
URL
Publishing Organizations
Author
Keith R. McIntosh and Malcolm D. Abbott and Benjamin A. Sudbury
Journal
IEEE Journal of Photovoltaics
Year
2022
DOI
10.1109/JPHOTOV.2021.3126115
ISSN
21563403
Issue
1
Volume
12
All Publications »SunSolve Power
The most advanced simulation tool for optimizing the design of solar cells and modules.