Trade Resources Industry Views PV Cells Increased Research and Development Efforts to Push Efficiencies to Record Levels

PV Cells Increased Research and Development Efforts to Push Efficiencies to Record Levels

Makers of solar photovoltaic (PV) cells are increasing research and development efforts to push cell efficiencies to record levels. According to Solarbuzz, the power rating of industry-standard 60-cell multi-crystalline silicon-based modules is forecast to reach 275W within the next 12 months.

"The solar PV industry previously operated without a clear technology roadmap, which is no longer an option in the rapidly growing solar PV industry," said Finlay Colville, VP of Solarbuzz. "Legacy over-capacity within the industry, combined with uncertainty arising from trade disputes, is now forcing cell makers to improve manufacturing processes to attain record efficiencies."

Modules based on crystalline silicon (c-Si) cells continue to be the dominant technology used by solar PV installers today. In fact, during second-quarter 2014, 92% of solar module production was c-Si based, with the remainder coming from thin-film technologies by First Solar and other suppliers.

Within c-Si based solar module production, 68% comes from cells that use lower-cost and lower-quality multi c-Si wafers, compared to competing mono c-Si wafers. Multi c-Si based modules are used extensively by Yingli Solar, Trina Solar, Renesola, and other leading China suppliers.

During 2011, 4-6GW of new c-Si cell capacity were added every quarter, mostly surplus to market requirements. This over-supply situation led to a rapid decrease in the number of new c-Si cell factories built in 2012 and 2013, the firm said.

"New solar cell factories were expected to come online during second-half 2014, especially in Taiwan," added Colville. "The threat of import duties on China and Taiwan manufactured components shipping to Europe or the US, however, has caused additional delays and uncertainty."

Cell makers focused on reducing costs in 2012 and 2013 by starting to upgrade printing equipment used within process steps on the front side of the cells. The upgrades reduced the quantity of silver paste used in production, which was one of the main sources of overall solar module costs.

Efficiency increases for solar cells were achieved primarily due to the use of higher quality multi c-Si wafers, which allowed industry-standard 60-cell multi c-Si based modules to reach 265W, without the requirement to perform significant process step changes at the cell stage. "To move existing silicon-based cell capacity further forward now requires new technologies to be implemented, which has the potential to drive solar manufacturing into the first widespread technology buy cycle seen within the industry," Colville noted.

A leading candidate for efficiency enhancement today is the introduction of new advanced process stages during rear-side fabrication of c-Si solar cells. So far in 2014, capacity upgrades have resulted in strong growth for a specific cell variant using new equipment in rear-side cell processing, known as passivated emitter and rear cell (PERC).

The PERC upgrade alone has the potential to add 10W to 60-cell multi c-Si modules, and 15W to mono c-Si versions. If successfully implemented, this upgrade would push multi c-Si modules towards 275W, enabling solar panel installers to immediately lower system costs, while improving profit margins.

Source: http://www.digitimes.com/news/a20140820PR201.html
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