#19,158
Twenty years ago (2006) NERC, or the North American Electric Reliability Corporation, was tasked with "ensuring the reliability of the North American bulk power system" following the 2003 Northeast blackout which affected more than 50 million people in the United States and Ontario, Canada.
Over the past dozen years we've looked at a number of their reliability assessments (see here, here, and here) amid growing governmental concerns over the reliability of the electrical grid (see NIAC: Surviving A Catastrophic Power Outage).
But over the past couple of years the rapidly increasing power demands from A.I. data centers, bitcoin harvesting, and cloud computing have added yet another potential failure point.
Last summer the U.S. Department of Energy published a 73-page report that warned that if current schedules for retirement of reliable power generation (especially baseload) continue, without enough firm replacement, the risk of blackouts in 2030 could increase by 100× over current levels.
Four months ago, in NERC: Long-Term Reliability Assessment (Jan 2026), we looked at a 181-page NERC Long-Term Reliability Report which similarly warned that our power grid is facing a growing risk of electrical shortfalls over the next decade.
From their press release:
January 29, 2026
WASHINGTON, D.C. – NERC’s 2025 Long-Term Reliability Assessment (LTRA) and infographic spotlight intensifying resource adequacy risks throughout the North American bulk power system (BPS) over the next 10 years. Summer peak demand is forecast to grow by 224 GW, a more than 69% increase over the 2024 LTRA forecast with new data centers for artificial intelligence and the digital economy accounting for most of the projected increase.
Winter demand growth continues to outpace summer demand growth with 246 GW of growth forecast over the next 10 years, reflecting the evolution of electricity usage. Uncertainty and lag in the pace of new resource additions are driving heightened concerns that industry will not be able to keep up with rapidly increasing demand.
They wrote:
Since then, it has become apparent that:NERC, Regional Entities, and NERC registered entities have analyzed a series of disturbances that occurred on the bulk power system (BPS) resulting in widespread and unexpected customer-initiated load reduction of large loads. These disturbances involved multiple events during which 1,000+ MW of unexpected Large Loads output reduction occurred, with most events occurring in 2024 or 2025. The increase of Large Loads-related events coincides with an increase in Large Load penetration across the BPS.
the risks are increasing faster than expected, real-world events are already occurring, and industry response to the earlier alert has been insufficient
All of which forced NERC to raise the ante last week.
NERC Issues Level 3 Alert, Reliability Guideline Focused on Large Load Challenges
May 04, 2026
WASHINGTON, D.C. – As the grid faces unprecedented challenges from a surge in large power consumers, NERC is taking significant steps to ensure the reliability of the bulk power system (BPS). NERC released a Level 3 Essential Action Alert, Computational Load Modeling, Studies, Instrumentation, Commissioning, Operations, Protection, and Control, outlining seven actions registered entities must implement to address immediate risks posed by computational loads interfacing with the BPS.
The Level 3 Alert was issued as NERC observed customer-initiated large load reductions and significant oscillations that occur in seconds, leaving little or no room for real-time responses, threatening BPS reliability. The deadline for registered entities to submit their responses is August 3, 2026.
In another move to address emerging large loads, NERC released new voluntary guidelines to safeguard grid reliability. The Reliability Guideline: Risk Mitigation for Emerging Large Loads, recommends actions for traditional utilities and grid operators, and the companies behind these large loads including equipment manufacturers. The goal is to ensure that as more industrial-scale consumers connect to the grid, they actively participate in practices that protect grid stability. These steps highlight that proactive planning and participation can enable even more of these facilities to come online reliably and quickly. The guideline also acts as a reliability bridge while NERC updates its formal Reliability Standards to address these new challenges.
Registered entities subject to the Level 3 Alert are encouraged to act now by reading the alert and submitting responses by the August deadline. And, although non-binding, NERC strongly urges all relevant entities, from transmission operators to equipment makers, to adopt the recommended risk mitigation strategies outlined in the Reliability Guideline.
Those interested in reading the full 15-page document can find it at:
Although the risk mitigation strategies mentioned above are currently non-binding, it seems likely this is a prelude to a major policy shift, as they call them `. . . a reliability bridge while NERC updates its formal Reliability Standards to address these new challenges.'
While it remains to be seen how much of an impact these massive data centers will have on day-to-day delivery of electricity to the nation, it seems likely that utility costs will continue to increase, and that localized brownouts/blackouts will become more common.
With hurricane season approaching, those interested in small solar power options to soften the impact of power outages may wish to revisit the following blogs.
