SPONSORED: Extensive, years-long PV field studies by DuPont in the examination of solar defects have yielded valuable knowledge of the areas where solar panels can fail and of the most common defects found.
This accumulation of knowledge enables the development of more stringent risk mitigation techniques and helps purchasers of solar power systems to make educated and informed materials assessments.
For this study, module defects were identified via visual inspection combined with the use of a thermal camera. A PV module with a defect might not have a safety issue or power loss, but may differ in some way from a perfect module. In many instances, the defects were not uniform across all modules in a particular installation.
One area that was examined in the study involved the use of alternative backsheet materials that were lacking in-depth, long-term performance testing. This lack of performance data resulted in expensive field failures. The study highlighted the critical role that backsheets play in the performance of solar modules. Due to little standardization between polyethylene terephthalate (PET) films, inconsistent performance in the field and a high rate of early field failures, such as yellowing and cracking, were found. Cracked and damaged backsheets can cause electrical insulation failure, posing a safety hazard and putting your panels at risk.
Drawing on decades of experience researching, manufacturing and testing solar materials, DuPont offers best practices for solar array design, component selection and long-term maintenance. DuPont has made these available as a free-of-charge resource to interested EPCs, rooftop installers and energy solutions providers.
This article was written by DuPont.
Mar 09 - Mar 11, 2021
Understand fully the technical and logistical supply chains that determine the production and performance of solar modules, including all related factors impacting quality, reliability & bankability. This event will be run online with streamed content and online networking.