How the Pacific Northwest’s Federal Hydro System Powered the Region Through an Arctic Blast

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How the Pacific Northwest’s Federal Hydro System Powered the Region Through an Arctic Blast

DATE:

April 16, 2024

BY:

Doug Johnson, Senior Spokesperson, Bonneville Power Administration

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How the Pacific Northwest’s Federal Hydro System Powered the Region Through an Arctic Blast

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*This article was originally published by Bonneville Power Administration

Extreme weather events are becoming increasingly common, and with our lives and well-being deeply connected to reliable electricity, keeping the lights on is paramount. In the Pacific Northwest, where severe winter storms and ice events are occurring with increasing regularity, clean energy resources like hydropower are serving as the backbone, ensuring power regardless of challenging conditions.

As a 24/7, reliable resource, the dependability hydropower provides is a feature, not a bug. In fact, the consistency of hydropower is one of the many reasons why it is so critical for the clean energy transition, as it supports the grid when the sun isn’t shining, and the wind isn’t blowing.

To understand more about hydropower’s performance during winter storms, Bonneville Power Administration (BPA) created an article detailing the work that went into ensuring that Federal dams, which were operating at levels not seen since the age of aluminum smelters in the Northwest, could perform the important role of providing power to millions of homes; read on to learn more.

Federal dams like Ice Harbor pictured here were instrumental in keeping the lights on during the January cold snap.

KEEPING THE POWER ON

Plunging temperatures across the Pacific Northwest that stayed below freezing for four days from Jan. 12-16 were no match for the Federal Columbia River Power System. Despite record-breaking energy demand and other challenges, the federal power system supported its utility customers and the region through the most intense cold snap the Northwest had seen in 20 years.

“The federal dams and Columbia Generating Station, the region’s one nuclear plant, were vital to keeping the lights on during this dangerous freezing weather event,” said Power Services Senior Vice President Suzanne Cooper. “While other generation experienced outages, federal generation operated reliably. This performance combined with activity in the wholesale power market allowed us to meet our customers’ load and help supply others during this event.”

“There were challenging pockets throughout the system caused by physical damage to equipment, but our real-time staff made adjustments to preserve reliability, and our field teams did an excellent job of safely responding to interruptions in really challenging weather conditions,” said Ricky Bustamante, acting vice president Transmission System Operations.

BPA’s area load peaked at 11,396 megawatts during the morning of Saturday, Jan. 13, which is a modern era energy demand record since the time aluminum smelters were served with federal power. The previous post-aluminum record was set on Dec. 22, 2022, with 11,068 MW. The all-time peak load, which includes service to aluminum smelters, was set in 1990 with 11,930 MW. For context, area loads above 10,000 MW are uncommon and tend to only be observed during significant cold snaps.

Also on Jan. 13, BPA’s aggregate customer load climbed even higher, peaking at 13,267 MW.

“Serving consistently high energy demand took significant coordination with multiple partners for both proactive planning ahead of the weather and real-time adjustments as conditions evolved,” said Vice President of Generation and Asset Management Michelle Cathcart. “The dependability of the federal power system in extreme and dangerous weather events demonstrates its value and importance to BPA’s power customers and the broader region.”

Hydro Power Performance and Operational Considerations

BPA ramped up the output of the FCRPS during the day as electricity demand climbed and used power imports, or purchases, during light load hours at night to hold water back to maximize power generation and meet peak demand. This helped BPA keep the lights on for the duration of the cold snap. During the cold snap, BPA did successfully work to optimize system conditions and operations to limit the potential financial exposure but ended the period as net buyer.

Leading up to the event, BPA coordinated with the U.S. Army Corps of Engineers and the Bureau of Reclamation to delay planned maintenance, ensuring the FCRPS had as many units available as possible.  In addition, BPA requested restricted maintenance for CGS through Jan. 18.

Due to a low water year this year, BPA’s planned winter operations are managing the river to minimum flows. The requirement to save water above Grand Coulee for spring fish operations limited the amount of additional generation during the artic event; however, creative management of the lower Columbia projects allowed BPA to increase generation without reducing the amount of water in Grand Coulee’s reservoir needed for springtime. Leading up to the impending cold snap, operations focused on creating storage space in the lower Columbia projects so upstream projects could increase generation without increasing flows below Bonneville Dam above the minimum needed to protect Endangered Species Act-listed chum salmon redds. This led to 525 average megawatts of extra generation from Jan. 12-16.

BPA also worked with Canada to release extra water from Canadian storage reservoirs. This provided an additional 600 aMW from Jan. 13-16.

On the chart above, VER = Wind and Solar

Lower Snake River Dams Performance

The lower Snake River dams made major contributions to BPA’s efforts to keep the lights on during the cold snap. Combined, Lower Granite, Little Goose, Lower Monumental and Ice Harbor dams peaked to more than 1,000 aMW each day from Jan. 13-16 with the highest one-hour peak of 1,146 MW achieved on Tuesday, Jan. 16. This was accomplished by reducing generation late at night into the early morning hours to less than 200 MWs and ramping to over 1100 MWs during the peak daytime hours.

In addition to peaking performance, Ice Harbor Dam provided much needed local energy in the Tri-Cities area by increasing minimum generation throughout the extreme weather event.

The lower Snake River dams also registered an impressive, 18-hour sustained peak during the cold snap. Sustained peak measures the highest six hours per day of generation over a three-day period. The chart below demonstrates that sustained peak was 1,071 MW.

NEXT STEPS

To learn more about how hydropower in the Pacific Northwest helps ensure grid stability, check out the following stories: