Power demand is growing by 50%, 60%, 70%, depending on who you ask. Generating power is essential, but delivering power is crucial for AI data centers, industrial applications, economic growth, and other purposes. To enable the delivery of the this power demand, Sen. Peter Welch [D-VT] and other sponsors have introduced the GETs ACT (S.3918) which directs the FREC (Federal Energy Regulatory Commission) to accelerate the adoption of ‘‘grid-enhancing technologies," (GETs) which means any hardware or software that increases the capacity, efficiency, reliability, resilience, or safety of transmission facilities and transmission technologies over the next 5 years.
In this webcast, we will explore the GETs ACT and the types of technology that would be included, as well as the need for a systemic approach to upgrading the grid to meet the growing power demand. A spotlight will be placed on the next generation of capacitors, and why traditional BOPP films can’t meet today’s high-temp, high-frequency, high-performance needs.
Discover how Peak Nano’s nanolayered film capacitors (LDF and HDC) deliver greater energy density, thermal stability, and reliability, enabling faster, cleaner, and more flexible grid operation.
Key Takeaways:
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What would the GETS Act do to accelerate grid delivery, capacity, and efficiency without complete rebuilds?
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Learn which components—like high-power and temperature capacitors—are being upgraded and why modern energy demands require new materials.
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See why traditional BOPP film is no longer sufficient for high-resilience, high-temperature grid environments.
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Explore how Peak Nano’s LDF and HDC film capacitors help modernize substations, mobile systems, and energy storage solutions.
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