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Originally published July 14, 2013 at 5:58 PM | Page modified July 15, 2013 at 11:02 AM

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Space weather could now cause trillions in damage

Today, electric utilities, telecommunications providers and the insurance industry are grappling with a scary possibility: a solar storm that would wreak havoc on power grids, pipelines and satellites.

The Washington Post

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Yep. We don't need new satellites or anything like that. It's much better to spend the... MORE
I think the article underestimates the damage that could be done by a solar storm. ... MORE
Good article and another great reason to have some extra water, food, batteries etc etc... MORE

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On a cool September night in 1859, campers in Colorado were roused from sleep by a “light so bright that one could easily read common print,” as one newspaper described it. Some of them, confused, got up and began making breakfast.

Farther east, thousands of New Yorkers were rushing onto their roofs and sidewalks to gaze up at the heavens. The sky was glowing, ribboned in yellow, white and crimson.

At the time, it was a dazzling display of nature. Yet if the same thing happened today, it would be an utter catastrophe.

The auroras of 1859, known as the “Carrington Event,” came after the sun unleashed a large coronal mass ejection, a burst of charged plasma aimed directly at the Earth. When the particles hit our magnetosphere, they triggered a fierce geomagnetic storm that lit up the sky and frazzled communication wires around the world. Telegraphs in Philadelphia were spitting out “fantastical and unreadable messages,” one paper reported, with some systems unusable for many hours.

Today, electric utilities, telecommunications providers and the insurance industry are grappling with a scary possibility. A solar storm on the scale of that in 1859 would wreak havoc on power grids, pipelines and satellites. In the worst case, it could leave 20 million to 40 million people in the Northeast without power — possibly for years — as utilities struggled to replace thousands of fried transformers stretching from Washington to Boston. Chaos and riots might ensue.

That’s not a lurid sci-fi fantasy, but rather a sober new assessment by Lloyd’s of London, the world’s oldest insurance market. The report notes that a smaller solar-induced geomagnetic storm in 1989 left 6 million people in Quebec without power for nine hours.

“We’re much more dependent on electricity now than we were in 1859,” explains Neil Smith, an emerging-risks researcher at Lloyd’s and co-author of the report. “The same event today could have a huge financial impact” — pegged at up to $2.6 trillion for an especially severe storm. (To put that in context, Hurricane Sandy caused about $68 billion in damage.)

The possibility of apocalypse has piqued scientific interest in solar storms in recent years. But researchers are now realizing that space weather can cause all sorts of lesser mischief, such as disorienting GPS satellites or severing contact between polar flights and air-traffic control.

So, in recent years, scores of businesses and government agencies are starting to take space weather more seriously. Electric-grid operators are devising plans to reroute currents through their systems to brace for solar storms. Airlines such as Delta have developed plans to reroute flights in the case of emergency. The U.S. military has begun to realize that space-weather blips can disrupt communication in the heat of battle.

But preparing for disruptions isn’t easy. Just as interest in space weather is surging, the United States is facing the loss of key monitoring satellites in the coming years because budget cuts mean that aging systems aren’t being replaced. And scientists are rushing to plug troubling gaps in their knowledge about these storms.

The problem is far from theoretical. Last month, at a conference on space weather in Silver Spring, Md., Daniel Baker of the University of Colorado announced that the sun had unleashed another large coronal mass ejection in July 2012 that traveled at speeds comparable to the Carrington Event of 1859. It missed the Earth by a week.

“Had that storm occurred a week earlier, it would have been a direct hit,” Baker said. “And we’d probably be having a very different conversation about this today.”

When it comes to space weather, the foremost concern is what a solar-induced geomagnetic storm might do to electric grids around the world.

At certain points in the sun’s cycle, as sunspots appear and flares erupt, the sun will eject part of its outer atmosphere, a cloud of fast-moving charged particles. If one of these coronal mass ejections hits the Earth’s magnetic field in just the right way, it can induce strong ground currents that travel through power lines, oil pipelines and telecom cables.

A truly severe geomagnetic storm could create currents powerful enough to overload electric grids and damage a significant number of high-voltage transformers, which can take a long time to repair or replace. That could leave millions without power for months or years.

“That’s a key vulnerability,” Smith says. “If you had a really big solar event, there just aren’t enough replacement transformers available. It can take up to 12 months to build new ones.”

As it turns out, most utilities don’t keep lots of spares around. The largest transformers, which convert the electricity in high-voltage lines to lower voltages, are custom-built, can cost millions of dollars and weigh up to 400 tons. Procuring a new one is a complex process that involves lining up the necessary copper and steel supplies, working with a long chain of manufacturers and arranging specialized transport. So, the Lloyd’s report notes, if even 20 transformers in the Northeast were knocked out, the logistical challenges would be “extremely concerning.”

Smith notes that the Northeast, with its aging power grid and peculiar geologic features, is especially at risk. Suffice it to say, it’s not fun to think about what would happen to the region if 40 million people had to go without power indefinitely.

Take Pittsburgh: One 2004 assessment from Carnegie Mellon University found that a large number of the city’s services were simply unprepared for an extended blackout. Half the city would lose water after three days if the city’s electrical pumps couldn’t be revived. Grocery stores, gas stations and cellphone networks would be knocked out. Police stations would go dark. Traffic lights would blink out. Most hospitals have backup systems in place, but emergency rooms would be strained if, say, the air conditioning went out during a hot summer.

“The absence of such fundamental services could lead to major and widespread social unrest, riots and theft,” the Lloyd’s report warns.

In theory, power utilities could try to take precautions if they had advance notice of a major solar storm headed our way. Using existing satellites, the National Weather Service’s Space Weather Prediction Center in Boulder, Colo., can detect an incoming event that’s about 30 minutes away.

There are technologies that could harden the grid, such as capacitors that can help block the flow of ground currents induced by a geomagnetic event. In Quebec, the Canadian government has spent about $1.2 billion on these technologies since the 1989 blackout.

Last fall, the Federal Energy Regulatory Commission issued an order that will eventually require grid operators to prepare both operational and technological responses to a space weather event.

Setting aside apocalyptic blackouts, solar storms and space weather can create all sorts of hiccups in the global economy that scientists are only just beginning to understand.

Case in point: During the Battle of Takur Ghar in Afghanistan in 2002, a U.S. helicopter team was sent in to pick up a team of Navy SEALs. The SEALs sent a message to the helicopter warning the team not to land, but for some reason, it was never received. The helicopter landed under intense fire and four Americans were killed — an event dramatized in Sean Naylor’s best-selling account of Operation Anaconda, “Not a Good Day to Die.”

Some scientists now suspect that space weather could have been to blame for the incident.

At the space-weather conference in June, Michael Kelly of the Johns Hopkins University Applied Physics Laboratory presented early evidence that a form of space weather known as “scintillation” can cause disturbances in the ionosphere and disrupt local radio communications. Researchers are working to model this phenomenon more accurately.

Airlines, too, have to take outbursts from the sun into account. Delta runs a number of commercial flights over the poles, such as routes between Detroit and Beijing and between Atlanta and Tokyo. But if they get a last-minute warning from the Space Weather Prediction Center of a geomagnetic storm, the planes often have to divert their routes away from the poles or risk losing radio contact with the ground. These diversions can cost thousands of dollars, Delta officials noted, so better predictions would help a great deal.

Joseph Kunches, a scientist at the Space Weather Prediction Center, says we’re still learning about activities that could be disrupted by solar weather. Satellite communications can go astray. Pipelines can corrode from ground currents. Even human space travel faces a threat.

Kunches and other experts pointed to the potential impact of solar eruptions on GPS technology. Certain storms could degrade the signal as it makes its way from the satellite to the ground. GPS is built into so much of the modern economy — from navigation to geophysical exploration by oil and gas companies — that any interference with GPS signals could be quite costly.

“I call it the cyber-electric cocoon we’ve built around the Earth,” says Baker, who heads the Space Physics Research Laboratory at the University of Colorado. “There are all these relationships that most people don’t even have a clue are there, and we’re still trying to understand everything that’s at risk.”

It’s difficult to predict whether a solar outburst will actually create a storm when it hits Earth. A great deal depends on how a coronal mass ejection interacts with other solar winds as it moves toward us. Kunches likens it to knowing that a hurricane is coming, but not being able to measure its barometric pressure.

It would also be helpful to have more spacecraft studying the sun and giving us advance warning of storms. But, if anything, the Earth’s alert systems are about to get worse, not better.

Right now, the United States has four space satellites situated between the Earth and the sun, which can provide roughly 30 minutes’ warning of a major solar eruption. But these satellites are all reaching the end of their planned lives (and fuel tanks), and there’s only one replacement satellite scheduled to launch in 2014.

At the space conference in June, various speakers discussed ways to improve our ability to watch the sun. One engineer described fantastical plans for a satellite with a 100-square-meter “sail” that would use be steered and pushed by the sun’s photons in order to get closer and closer to the star without getting sucked in by gravity. A solar-sail satellite could, in theory, give us twice as much warning to prepare for a space storm.

But so far, these plans are all theoretical. “There’s a real need for a truly operational, 24-hour-a-day, seven-day-a-week space-weather observatory,” Baker says. “But right now, we don’t see that coming from policymakers or the agencies that would have to step up.”

That means we may have to hope for a bit of luck in the years ahead. Solar activity tends to follow an 11-year cycle, with the most intense events often occurring near the peaks of the solar maximum — which, NASA says, could well arrive in late 2013, although it’s difficult to predict for sure.

That doesn’t mean the big one will hit then (for one thing, sunspot activity has been rather muted of late). But it does lend some urgency to the problem.

“We’re really on an unknown timeline here,” Beck says. “One of these could happen at any time.”

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