The main purpose of this ongoing blog will be to track United States extreme or record temperatures related to climate change. Any reports I see of ETs will be listed below the main topic of the day. I’ll refer to extreme or record temperatures as ETs (not extraterrestrials).😉
Main Topic: Deeper Dive Into Power Woes Of Texas And Meteorological Review Of Yeti
Dear Diary. Before moving onto other main subjects over the weekend it’s worth reviewing what I’m sure will be the first multi billion dollar natural disaster of 2021 after we get insurance tallies, the cold wave that I’ve dubbed “Yeti” and the two main winter storms that interacted with arctic chill named “Uri” and “Viola” by The Weather Channel. As of this Friday at least our abominable Yeti is moderating. Most every location in the United States is well above 0°F but still dangerously cold, especially in the south-central states where residents aren’t used to this level of chill:
Yeti, I’m sure Yeti was the coldest and worst outbreak of arctic chill so far in the 21st century across a broad area of the United States. But was it the worst in modern history? Here is how it stacks up to eat many climatologists consider to be the most extreme, that of 1899:
For a suburb Twitted review of Yeti please read this ling thread:
My friend Bob Henson writing for Yale Communications has written an excellent post on Texas’ power grid woes that were exposed be Yeti. Here is a reprint of that. Certainly over the next few years lessons learned from Yeti’s wrath to rebuild power infrastructure better will help insure that a disaster caused by cold waves and heat waves won’t happen again:
Why the power is out in Texas … and why other states are vulnerable too
The U.S. electric grid is uniquely susceptible to power outages, a problem expected to get worse with climate change.
By Bob Henson | Wednesday, February 17, 2021
Steam fog extends across Lake Thunderbird in Norman, Oklahoma, on the morning of February 16, 2021. Just to the north, Oklahoma City dipped to -14°F, the city’s coldest reading since its all-time record low of -17°F on February 12, 1899. Power outages affected parts of Oklahoma and nearby states, with by far the worst impact in Texas. (Photo credit: James LaDue)
It wasn’t a torrid heat wave or a Category 5 hurricane that brought the Texas electrical grid to its knees on February 15. Instead, it was the most widespread and intense cold and snow in decades.
The frigid onslaught triggered a cascade of events that left millions of Texans shivering in the darkness of unheated, unlit homes. Temperatures sank well below freezing all the way to the Texas coast, putting Houston below 32 degrees Fahrenheit for nearly 48 hours and leaving countless records broken on the icy plains.
All-time lows were set in Tyler (-5°F) and Longview (-6°F), and a bone-chilling -20°F was reported in the Texas Panhandle.
Frozen wind turbines played only small role in Texas outages
Many – including some prominent climate change contrarians – were quick to pin the “electric emergency” on the massive turbines that make Texas the leading U.S. state for wind energy. While the deep freeze did knock some turbines offline, practically every mode of energy supply was hobbled by the intense cold, snow, and ice.
The main cause of the massive disruption, by far, were the frozen components leading to the outage of thermal plants that heat water and convert the steam to electricity. The vast bulk of those thermal plants are powered by natural gas. In addition, the South Texas Nuclear Plant was thrown out of service Monday as a result of frozen pipes, which cut even further into the Houston area’s electricity supply.
Also feeding the crisis were several factors unique to Texas. Most of the Lone Star State is on a power grid that’s separate from the western and eastern U.S. grids, a decades-old bid to avoid interstate regulation but one that reduces the Texas grid’s flexibility. The state’s deregulated, just-in-time energy marketplace is also a factor, as it leans on production versus storage – a risk when natural gas lines freeze up – and it allows for massive price spikes during weather outages.
The three main components of the North American power grid are the Western and Eastern Interconnections and the ERCOT Interconnection, managed by the Electric Reliability Council of Texas and encompassing most of the state. (Image credit: ERCOT)
Investigations after similar but less-extensive Texas freeze disasters in 1989 and 2011 pinned much of the blame on equipment that was insufficiently protected against extreme cold, a threat that’s infrequent in Texas but notoriously brutal when it does arrive. “Many of the generators that experienced outages in 1989 failed again in 2011,” according to a report from the Federal Energy Regulatory Commission and the North American Electric Reliability Commission.
“I think the Texas freeze will become the new poster child for compound weather and energy disasters,” said atmospheric scientist Daniel Cohan of Rice University, who’s working on a book about energy and climate change. “The challenges faced this week will likely be studied for years to come, and they show how tough it is to achieve resilience in a changing climate during an energy transition.”
Overall, of course, the temperature trend points to more warming. In Texas and in most other U.S. locations, the coldest winter temperatures have been steadily rising, according to data compiled by the nonprofit science and communications group Climate Central. Yet a warming climate doesn’t preclude the occasional extreme wintry blast.
It’s also possible, though not universally accepted, that depleted sea ice and amplified Arctic warming are exacerbating at least some mid-latitude cold episodes, a topic of lively, ongoing research debate.
U.S. electric grid is uniquely vulnerable: This ‘doesn’t happen everywhere’
The week’s U.S. power woes extended well beyond Texas, the result of an unusually prolonged and widespread bout of frigid air and frozen precipitation. According to poweroutage.us, some 175,000 customers were without power in Oregon on the evening of February 16. They were joined by more than 200,000 customers in Kentucky and West Virginia, and 3.2 million customers still powerless in Texas.
More trouble is looming in the forecast, with fresh winter-weather watches and warnings in place from Austin to Boston. All told, this sequence of mid-February storms could end up interrupting power for well over 10 million Americans.
To put it bluntly, this kind of situation doesn’t happen everywhere. In fact, it happens more often in the U.S. than in any other developed country, according to the University of Minnesota’s Massoud Amin, a founding expert in smart-grid technology. Amin has found that utility customers lose power for an average of 4 minutes annually in Japan, compared to 92 minutes per year in the Upper Midwest.
“We are behind all other G7 nations in our infrastructure, including the power grid,” Amin said.
One clear factor is America’s outsized crop of extreme weather. Another is the vast number of weather-vulnerable U.S. power lines that lie overhead, especially in older eastern cities. Nations such as Germany and the Netherlands prioritize burying power lines, a process that’s costly but that helps reduce the havoc resulting from extreme weather.
Between 2010 and 2019, the U.S. had an increase of 67% in major weather-related power outages (those affecting at least 50,000 customers) as compared to 2000-2009, as tracked by the U.S. Department of Energy (DOE) and analyzed by Climate Central. These outages cost an average of $18 to $33 billion per year, with the indirect costs much higher.
What’s more, the aging U.S. grid is being hit hard by compound weather disasters, those occurring near each other in time or space – or both. From the final week of October 2020 into early November, three far-flung areas experienced nine major outages, some lasting more than a week. The culprit was a strange juxtaposition of weather disasters that included an exceptionally early and destructive ice storm and a very late-season hurricane landfall.
- Wildfires in California, 10/25-10/27 (506,000 customers)
- Ice storm in Oklahoma, 10/27-11/7 (682,000 customers)
- Hurricane Zeta in and near Louisiana, 10/28-11/2 (1,099,000 customers)
How climate change is stressing the grid
Compound disasters are a topic of growing interest among researchers. They point out that the total impact of compound events can be much greater than the sum of their parts. For example, the nation’s limited supply of utility repair crews can get stretched beyond its ability to respond.
Climate change is already exacerbating some potential threats to the power grid: for instance, the ramped-up intensity of heat waves and the increased frequency of sprawling “stuck” weather patterns in summertime.
Colin Raymond of the NASA Jet Propulsion Laboratory is lead author on an essay published last summer in Nature Climate Change that delves into understanding and managing compound and connected weather and climate disasters. Raymond draws a distinction between compound weather and climate events – often linked to a single, persistent large-scale weather pattern – and connected events, which occur when compound events are “amplified by societal networks.” According to Raymond, the latter “leads to impacts that are larger or have a different spatiotemporal pattern than they would otherwise.”
The coast-to-coast power outages of February 2021 are one example. In their Nature Climate Change essay, Raymond and colleagues highlight another: the sequential assault from hurricanes Harvey, Irma, and Maria within a month’s time in the summer of 2017.
By the time Maria struck Puerto Rico, the study noted, U.S. emergency response systems had been stretched thin by Hurricane Harvey striking Texas the previous month and Hurricane Irma hitting Florida the previous week. On top of Puerto Rico’s pre-existing vulnerabilities – including under-maintained infrastructure, limited budgets, an aging population, and lack of statehood benefits – relief supplies pre-negotiated by FEMA had been drained by Harvey and Irma. The agency rushed into new arrangements that were plagued with problems, including steep markups.
Damaged power lines were strewn across Puerto Rico on September 21, 2017, when a military convoy including Governor Ricardo Rosselló visited the cities of Loiza and Canóvanas to survey destruction left by Hurricane Maria. (Image credit: Puerto Rico National Guard, via Flickr)
Scientists are exploring an array of new tools to help examine how compound and connected events are intertwined and how policymakers can unravel the knots. According to Raymond and colleagues, “impacts can serve as a winnowing device to identify what combinations of extreme events matter.” Emerging computational and communication technologies could also make a big difference, especially with the help of high-quality, fine-grained impacts data.
The most promising analog, according to Raymond and colleagues, may be in the spectacular progress of aviation safety. They call it a realm where “physical science, engineering, and social sciences have come together to successfully mitigate – despite greatly increasing system complexity – the frequency of disastrous failures.”
How to keep the juice flowing
As for the U.S. power grid, there’s no sign that weather and climate will be giving it a break anytime soon. With La Niña still in place, extended climate outlooks point to the potential for a drought-ridden spring across the western United States, perhaps extending into summer. In addition, tornadoes and hail tend to be more frequent in the southern Great Plains during La Niña springs, and La Niña often fosters an enhanced Atlantic hurricane season.
Texas’ electricity calamity of 2021 is bound to trigger debate on how to keep the evolving U.S. grid robust during various types of disasters, especially as the nation becomes more reliant on electricity that will increasingly come from renewable sources. De-icing systems and cold-weather lubricants are used in many wind turbines in northern climates. Over time, grid-scale battery storage for wind and solar energy could play a major role.
No matter how the sources and storage evolve, transmission and grid coordination are two Achilles’ heels that’ll have to be dealt with. Several companies are now using artificial intelligence to anticipate and track grid outages. In addition, decentralized microgrids could help distinct locations such as hospitals or college campuses keep the power going even during grid outages.
“We need a smarter, stronger, more secure grid,” said Amin, who chaired the board of the Texas Reliability Entity (the regional council for ensuring bulk power access) for seven years. “My hat is off to grid operators and utilities in Texas and elsewhere who are trying to keep up a system that was never designed to handle such contingencies. We need to help them make it stronger and more resilient.”
Collaboration among weather, climate, and energy researchers could also help ensure the grid is equipped to handle the mix of weather extremes that the evolving climate will be flinging our way.
“No infrastructural relic may be as vulnerable as the U.S. electric grid,” environmental scientist Urooj Raja of the University of Colorado Boulder wrote in a 2020 essay for The Hill. “As climate change escalates and disrupts weather patterns, our country must update the grid, immediately, or risk losing not only power, but lives.”
TOPICS: ENERGY, WEATHER EXTREMES
Here are more related items from today’s main topic:
Here is another hot “ET” from the other side of the planet:
Here is more climate and weather news from Friday:
(As usual, this will be a fluid post in which more information gets added during the day as it crosses my radar, crediting all who have put it on-line. Items will be archived on this site for posterity. In most instances click on the pictures of each tweet to see each article. The most noteworthy items will be listed first.)
Now here are some of today’s articles and notes on the horrid COVID-19 pandemic:
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Guy Walton “The Climate Guy”