PV Module Innovations to Help Drive Down Solar Costs in 2020s: WoodMac

PV Module Innovations to Help Drive Down Solar Costs in 2020s: WoodMac

In the 2020s, improvement in module efficiency and power class will propel the declining capex trend-forward and ultimately lower the solar LCOE

The global solar industry has experienced tremendous growth in the past decade as the annual demand for solar rose year after year while the cost of solar declined significantly. In the 2020s, solar module costs will continue to fall, albeit at a much slower rate. Instead, improvement in module efficiency and power class will propel the declining capex trend-forward and ultimately lower the solar levelised cost of energy (LCOE), new research from Wood Mackenzie found.

In its latest report, WoodMac examined three technologies that have the potential to improve solar module power class and performance: large wafer, n-type cells, and cell- and module-level techniques.

Report author Dr. Xiaojing Sun said “we found that PV modules made of large wafers, such as the M6, M10, or G12 format, could reduce the capex of a utility-scale solar project by 3 percent to 9 percent. The cost savings would be appealing to solar developers and installers, which will drive the market adoption.”

She said a majority of the major silicon module manufacturers have announced large module products, and many of them are on track to commercially produce large modules between Q4 2020 and Q4 2021.

Wood Mackenzie’s data show that the total module manufacturing capacity of M6, M10, and G12 wafer-based modules will reach 28 GW, 63 GW, and 59 GW, respectively, by the end of 2021. By 2025, the production capacity of modules using M10 and G12 wafers is forecasted to exceed 90 GW, respectively, making them the dominant technologies by manufacturing capacity.

Dr. Sun added “it is important to point out that the market adoption of large modules is dependent on the co-evolution of balance-of-system components such as inverters and trackers to accommodate the higher current and the larger size.

“Multiple industry alliances have been formed since early 2020 to ensure the entire solar ecosystem evolves to support the adoption of large modules. If the industry’s efforts bear fruit, we forecast that large module shipments in 2021 will account for approximately 40% of the total shipment of crystalline silicon modules. By the end of 2025, modules made with wafer sizes smaller than M6 will phase-out of the market.”

The report also investigated n-type modules, such as HIT and TOPCon, that could generate more power per panel due to higher cell efficiencies and have lower degradation rates. Unlike large modules, n-type modules do not currently yield system capex and LCOE savings in utility-scale solar projects. N-type modules’ high product costs offset the system-level non-module cost savings.

She said “our analysis shows that TOPCon and HIT modules will need a power class premium of at least 40 W and 90 W, respectively, or a 6 percent and 20 percent price cut in order to be competitive with mono PERC. Admittedly, these are tall orders. Nevertheless, significant efficiency improvement and production cost reduction are n-type modules’ must-take path to succeed mono PERC as the next generation solar module of choice.”

The research suggests that the 2020s will be a decade with rapid solar module technology innovations, leading to significant increases in module power class, better performance, more versatile applications.

Dr. Sun added, “module technology innovations, in addition to hardware cost reduction, will be the quintessential driving force that propels the continuous reduction of solar LCOE in the new decade.”

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Ayush Verma

Ayush is a staff writer at saurenergy.com and writes on renewable energy with a special focus on solar and wind. Prior to this, as an engineering graduate trying to find his niche in the energy journalism segment, he worked as a correspondent for iamrenew.com.

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