Summary:

More and more solar manufactures are making the push towards bifacial solar panels, and the solar energy industry has been working to integrate the additional factors affecting bifacial solar panels performance.

Main Article:

Temperature and the Case for Bifacial Solar Panels

With solar manufacturers making a rapid move toward bifacial solar panels, the downstream industry has been hard at work over the past year or two to integrate the additional factors affecting bifacial solar panels performance into their models. Since these models often play a vital role in a project’s success, this is important work.

When it comes to modeling bifacial solar energy yield, much of the debate has centered around how to accurately integrate the albedo of the surface below a module, and the non-uniformity of the light hitting the rear side, into models. According to a new study led by scientists at Purdue University in the United States, the improved temperature sensitivity of bifacial solar modules is a factor overlooked in some modeling and one which can drastically change the performance picture.

“Our analysis finds bifacial technology to be economically viable in many more parts of the world compared to the previous predictions by temperature-independent models,” says Muhammad Ashraf Alam, professor of electrical and computer engineering at Purdue University. “The competitive advantage of bifacial farms arises in equal measures from two factors: improved temperature sensitivity and height-enhanced albedo light collections.”

The researchers presented the model in “Temperature-dependent energy gain of bifacial PV farms: A global perspective,” which was recently published in Applied Energy. The group sought to integrate temperature-dependent efficiency data with existing model parameters such as irradiance and light collection, and found that including the details on temperature typically led to changes of 10% to 15% to modeled energy yield and levelized cost of energy values.

Bifacial future

The paper also found that for upcoming cell/module technologies such as heterojunction, the advantage is even clearer thanks to the technology’s better temperature coefficient. The scientists estimate that the bifacial solar panels gain for a silicon heterojunction module installed in a ‘hot’ location close to the equator could reach up to 12%, and an impressive 45% at latitudes of 30 degrees and above.

The group says that its model could change the understanding of bifacial solar module performance, demonstrating economic viability for the technology in many more locations than previously thought. And it further hopes to stay ahead of the curve by making models that can account for heterojunction and other upcoming module technologies.

“The analysis presented in this paper will allow us to realistically assess location-specific relative advantage and economic viability of the next generation bifacial solar farms,” said the researchers.

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