PowerRack: Brownfields
Lower cost per watt | Non-Ground-Penetrating | 100% U.S. Made 🇺🇸
The Best Option for Rugged Terrain
PowerField Energy’s PowerRack is a 100% American-made ground mounted solar rack that simplifies, accelerates, and increases ROI for Brownfield solar projects.
PowerRack requires zero ground penetration, meaning developers avoid costly geotechnical analysis, site prep, and concrete.
Unlock more terrain, at a lower cost, with PowerRack.
Lower Installation Costs
PowerRack offers the lowest mechanical installation cost of any solar racking option on the market today.
Zero spend on:
- Digging
- Concrete
- Geotechnical analysis
Reduced spend on:
- Labor Hours
- CAPEX
- Permitting
Shorter Project Timelines
PowerRack requires zero assembly and is installed in a fraction of the time of other solar racking systems and trackers.
Fewer labor hours = lower overall cost.
PowerRack’s non-penetrating design also means developers skip time-consuming geotechnical analysis and permitting processes.
No Concrete Needed
The price of concrete, a typical requirement of ground-mounted solar projects, has increased 10% in the past year.
PowerRack requires no concrete.
The rack is a one-piece container that is filled onsite using any local ballast material (gravel, dirt, rocks) with no tools required.
Made-In-America Tax Credit
PowerRack is proudly 100% made & manufactured in the United States.
PowerRack supports American industry while helping projects qualify for additional federal and state tax credits under the IRA*.
*PowerField Energy is not responsible for tax credit qualification; please consult a tax professional for advice regarding specific tax incentives.
End-to-End Sustainability
PowerRack is the only solar racking system on the market that is fully recyclable at end of life (40+ years), helping installers reach sustainability goals even faster.
Low Maintenance & Durable
Made from long-lasting and UV/weather-resistant high density polyethylene, PowerRack compromises nothing on durability.
PowerRack’s low position to the ground results in higher resistance to wind (tested up to 120mph) and thrives in extreme weather conditions.