The power grid is getting smarter, but is it tougher? - Action News
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Canada

The power grid is getting smarter, but is it tougher?

On March 13, 1989, a violent solar storm knocked out power across Quebec for more than nine hours. The sun is expected to hurl more storms our way between now and 2013. Is the grid ready for this and other challenges?
The electricity grid is an incredibly complex system that is vulnerable to a number of challenges Mother Nature throws at it. From solar storms wreaking havoc on a global scale to power failures caused by local storms, the grid can go down leaving many stranded and in the dark. (iStock)

The North American power grid is an incredibly complex system, with a web of more than 340,000 kilometres of high-voltage transmission lines connecting thousands of generating stations, tens of thousands of transformers and control stations, and millions of homes and businesses. It's often taken for granted until the lights go out.

Mother Nature has a way of finding weaknesses in the system and wreaking havoc on a grand scale. Besides regular localized power failures caused by storms, she's managed to take out electricity to huge swaths of North America's grid at least once each decade since the 1950s.

From each major failure the engineers have learned new lessons, and as they make the electrical grid "smarter" they're also trying to make it tougher. But are we any better prepared today for what the environment throws at the continent-spanning power system that has become crucial to modern life?

On March 13, 1989, for example, a violent solar storm knocked out power across Quebec for more than nine hours during the chilly tail end of winter. The blast of energy and plasma from the sun also caused smaller blackouts and damage to electricity infrastructure in other parts of North America.

According to the U.S. National Oceanographic and Atmospheric Administration (NOAA), the storm cost Hydro-Qubec and Public Service Electric and Gas of New Jersey more than $30 million, putting the event on par with damage caused by hurricanes and earthquakes.

The sun's activity is increasing again on the way to the next peak of the solar cycle, which NOAA expects in May 2013. Meanwhile, North America's grid has aged another 22 years.

That doesn't worry Quebec's main utility, which says its infrastructure has improved with time.

Major upgrades

Within months of the blackout, Hydro-Qubec had recalibrated the trip levels for safety equipment across the grid to reduce the chance it would be triggered by a solar storm. Later, it added equipment called series compensation on some lines to increase the stability of the network by changing the electrical behaviour of its transmission lines a project completed in 1996.

Jean-Pierre Beaudry of L'Outaouais region of Quebec cuts tree limbs from powerlines in Alymer, Quebec following a massive power outage caused by an ice storm in 1998. ((Fred Chartrand/Canadian Press))

According to NOAA, those upgrades cost $1.2 billion.

Hydro-Qubec has also created an alert system to measure disturbances in the grid during magnetic storms, targeting certain substations in an effort to get an overview of the whole grid.

Spokeswoman Flavie Ct said in an email to CBC News that the grid is more robust than it was in 1989.

"The performance of the network in similar situations [since then] leads us to believe in the strength of the system," she added.

Ontario's Hydro One receives early warnings about solar activity from the North American Electric Reliability Corporation, and has sensors and other equipment that helps dissipate the impact of solar disturbances, spokeswoman Daniele Gauvin said.

It seems like the upgrades are working. On Feb. 18 this year, a massive blast of plasma from the sun hit the Earth's atmosphere, creating a brillant display of lights in Northern Canada but causing no damage to the country's electrical grid.

Better monitoring

Solar flares aren't the only things on the minds of power grid troubleshooters.

Quebec and Ontario have survived a number of major blackouts, including the ice storm of 1998 that hit both provinces hard, and affected people right across to Canada's east coast and the northern U.S. The sheer weight of ice on the transmission lines dragged them right off their towers, and in some cases flattened the towers themselves.

A homemade sign tells motorists to go around an electric-powered street car in Toronto during the 2003 blackout. Fifty million people in Canada and the U.S. were affected by the power outage, which was the largest in history. ((David Lucas/Reuters))

It's hard to protect the system of high-tension wires against a storm of that geographic size and magnitude, but the grid has also been brought to its knees by relatively simple, localized problems such as trees.

Ontarians were among the 50 million people hit by the largest power outage in North American history on Aug. 14, 2003. The incident shut down hundreds of power plants in Ontario and eight U.S. states, left some areas without power for several days and suspended Ontario power markets for more than a week. The origin of the outage was traced to Ohio, where tree branches came into contact with sagging electrical lines and caused a cascade of other failures, according to a report by the U.S.-Canada Power System Outage Task Force.

Ontario's Hydro One says it is far better prepared for problems on the grid than it was then.

In 2005, it opened its Ontario Grid Control Centre to monitor and control the flow of electricity across the province, including disturbances. Before it was built, Ontario relied on smaller control centres that monitored individual pockets of the grid for potential situations. The blackout was "definitely a major component" in the decision to bring the centre together, said John Hamilton, manager of grid operations for distribution at Hydro One.

Solar stormy Canada

Explosions on the surface of the sun sometimes launch blasts of plasma full of negatively charged electrons and positively charged ions toward Earth. The resulting current passes through transformers in the electric grid, where it may trip safety equipment designed to detect abnormal voltage surges. That can deactivate transmission equipment and lead to a power outage.

The Earth's magnetic field tends to attract charged solar particles toward the poles,so northern countries are especially vulnerable to major solar storms.

Ontario and Quebec are also located on the Canadian Shield, a sprawling rock formation that blocks the current from being dissipated into the Earth. Hydro-Quebec's extremely long transmission lines that take electricity fromhydro projects in the north to communities in the south of the province make it even more of a target for solar radiation.

"The problem with individual-pocketing anything is you can't see what impact outside of your pocket [the situation] is going to cause," Hamilton said.

The system proved itself last summer, when aproblem arose at the Manby Transformer Station in Toronto, cutting power to a section of the city. That could have cascaded and created other blackouts like the 2003 Ohio incident, but it didn't. In fact, Hydro One managed to restore power relatively quickly.

"We could see all the information at once," Hamilton said, "and we could immediately start planning how to switch around the issues that arose."

Ontario, like many other North American regions, is movingtowards a smart grid one with a built-in information infrastructure that allows the entire grid to be monitored and controlled from a distance.

That isn't yet in place for the distribution side of the network, which carries power from the transmission network to customers. But Hydro One's transmission network the part of the grid that would likely be most affected by solar storms, among other things already is practically a smart grid, Hamilton said. The people overseeing the system can monitor current at different locations, remotely turn power on and off, and dispatch crews to the areas it believe there could be a problem.

Consequently, Hydro One thinks it, too, is ready for the coming peak of the solar-storm cycle as well as other environmental challenges.

In the meantime, mindful ofMother Nature's surprises,it is keeping a close eye on both the grid and the skies.