With three models of 500 W solar panels officially unveiled, here’s a look at what it means for the future of project development and the solar industry at large.
How will the advent of 500 W PV modules change the solar industry?
“For applications where you have a lot of area, particularly commercial and especially utility scale, it’s really significant,” said Barry Cinnamon, CEO of solar and energy storage installer Cinnamon Energy Systems. “You could just use fewer modules – it reduces handling costs and overall balance-of-system costs go down.”
If fewer modules are needed to reach the capacity specifications of a project, costs will fall as such modules become economically viable. A significant project area that will see cost reductions is racking and trackers.
“It’s going to drive down the cost of racks and trackers per module,” said Matt Kesler, head of technology at OMCO Solar, an Arizona-based racking and fixed tilt tracking manufacturer. “It’ll reduce the cost per watt of installation labor. It’s also going to give a premium on racks and trackers that are designed for ergonomics. As these things get bigger they’re going to get heavier and wider. if there are features in the trackers and racks that assist in the placement of the modules, that’s going to have more value.”
The consensus among the installers interviewed by pv magazine was that the average module installed checks in at 380 W. This means that Trina and Risen’s panels deliver around 31% more power than the average installed panel. Cinnamon said that 10 years ago, the average module output was about 250 W.
As neat as that calculation is, these panels have a long way to go until they are industry standards, let alone benchmarks for the average installation.
“It takes about five years for the industry to change all of its assembly equipment to a new size,” said Cinnamon. “It’s a lot of work to buy new equipment because often it can’t be reprogrammed … We’re talking three to five years to change out all of that equipment.”
“The most common sector is going to be C&I [commercial and industrial users],” said Jock Patterson of Fronius USA, an inverter company. “I see these on rooftops where space is limited and they want higher-efficiency modules. Large suppliers are going to feel the pressure to supply an inverter that’s 1,500 V. Those who aren’t providing that are going to feel like they’re missing out on those larger rooftop projects.”
The change is unlikely to be industry-wide, however. The residential solar market is expected to see little direct impact as the higher-power modules become commercially available – as roof space is usually limited, work spaces are angled and workers have to be able to carry the modules up ladders. Anything beyond the standard 1×1.6m, 60-cell module is too cumbersome.
The hope for residential installers pv magazine spoke with was that the technologies used to get modules to 500 W will eventually trickle down to their 60-cell, lower output brethren. That could mean residential installations would be able to take up less roofspace while providing more power, ultimately driving down balance-of-system costs.
Risen has claimed it could easily reach 600 Wp of output with a 60-cell panel.
This article was amended on 09/03/20 to reflect the new 500 W panels are 50-cell devices, not 72-cell modules as previously reported.