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Related: About this forumNRC to consider solar flare petition by Foundation for Resilient Societies
http://www.power-eng.com/articles/2012/12/nrc-to-consider-solar-flare-nuclear-safety-petition.html
NRC to consider solar flare nuclear safety petition
Dec 20, 2012
A petition requesting that nuclear plants be required to maintain backup spent fuel cooling systems capable of operating autonomously for two years without refueling will receive full consideration, the NRC announced this week.
The petition contends that a massive solar flare could potentially disable large portions of the US electrical grid for an extended period of time, according to a statement from the NRC. Such a blackout, the petition states, could leave nuclear plants without an offsite energy source to power cooling systems for spent fuel pools.
The petition was filed in March of 2011 by Thomas Popik, founder and sole media contact for the Foundation for Resilient Societies, a committee of engineers dedicated to protecting technologically-advanced societies from natural disasters, according to the foundations website.
<snip>
NRC to consider solar flare nuclear safety petition
Dec 20, 2012
A petition requesting that nuclear plants be required to maintain backup spent fuel cooling systems capable of operating autonomously for two years without refueling will receive full consideration, the NRC announced this week.
The petition contends that a massive solar flare could potentially disable large portions of the US electrical grid for an extended period of time, according to a statement from the NRC. Such a blackout, the petition states, could leave nuclear plants without an offsite energy source to power cooling systems for spent fuel pools.
The petition was filed in March of 2011 by Thomas Popik, founder and sole media contact for the Foundation for Resilient Societies, a committee of engineers dedicated to protecting technologically-advanced societies from natural disasters, according to the foundations website.
<snip>
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NRC to consider solar flare petition by Foundation for Resilient Societies (Original Post)
bananas
Jan 2013
OP
bananas
(27,509 posts)1. IEEE Spectrum cover story February 2012
Cover article from IEEE Specctrum February 2012:
http://spectrum.ieee.org/magazine/2012/February
February 2012 issue
COVER STORY
A Perfect Storm of Planetary Proportions
The approach of the solar maximum is an urgent reminder that power grids everywhere are more vulnerable than ever to geomagnetic effects
By John Kappenman
February 2012 issue
COVER STORY
A Perfect Storm of Planetary Proportions
The approach of the solar maximum is an urgent reminder that power grids everywhere are more vulnerable than ever to geomagnetic effects
By John Kappenman
Sidebar to the cover story:
http://spectrum.ieee.org/energy/the-smarter-grid/a-perfect-storm-of-planetary-proportions/0/hundreds-of-fukushimas
Hundreds of Fukushimas?
In a massive geomagnetic storm that could trigger a long-term power outage across large portions of the globe, the world's 400-some nuclear plants would be particularly vulnerable to catastrophic failure, for two reasons.
First, as events in Japan last March made clear, nuclear power plants often have inadequate backup power on-site. At the Fukushima Dai-ichi complex, even if the diesel generators had not been flooded, they had only enough fuel for seven days, the industry norm.
To sustain emergency operations beyond a week, all nuclear plants require a functioning connection to the grid. That's because even after nuclear fission ceases, fuel rods in the reactor cores and spent fuel pools continue to generate decay heat for years, requiring cooling with water circulation pumps. It can take several megawatts of power to operate that equipment. So when both on-site and outside power supplies suffer a long-term outage, as they did at Fukushima, the result is a core meltdown. Even worse would be a fire in a spent fuel pool, which can hold 10 times as much fuel as the core but has no containment structure.
Nuclear plants are also vulnerable because they're so big. To feed a gigawatt of electricity from a nuclear plant into the grid requires many high-voltage transformers and transmission lines, and each connection is an entry point for geomagnetically induced currents. In a comparison I did of nuclear plants versus other types of power plants and substations, there were 50 percent more GICs at nuclear plants than at other facilities.
So a massive solar storm that knocks out nuclear power plants' ability to transmit power and destroys their backup power systems could very well trigger dozens or even hundreds of meltdowns.
John Kappenman
Hundreds of Fukushimas?
In a massive geomagnetic storm that could trigger a long-term power outage across large portions of the globe, the world's 400-some nuclear plants would be particularly vulnerable to catastrophic failure, for two reasons.
First, as events in Japan last March made clear, nuclear power plants often have inadequate backup power on-site. At the Fukushima Dai-ichi complex, even if the diesel generators had not been flooded, they had only enough fuel for seven days, the industry norm.
To sustain emergency operations beyond a week, all nuclear plants require a functioning connection to the grid. That's because even after nuclear fission ceases, fuel rods in the reactor cores and spent fuel pools continue to generate decay heat for years, requiring cooling with water circulation pumps. It can take several megawatts of power to operate that equipment. So when both on-site and outside power supplies suffer a long-term outage, as they did at Fukushima, the result is a core meltdown. Even worse would be a fire in a spent fuel pool, which can hold 10 times as much fuel as the core but has no containment structure.
Nuclear plants are also vulnerable because they're so big. To feed a gigawatt of electricity from a nuclear plant into the grid requires many high-voltage transformers and transmission lines, and each connection is an entry point for geomagnetically induced currents. In a comparison I did of nuclear plants versus other types of power plants and substations, there were 50 percent more GICs at nuclear plants than at other facilities.
So a massive solar storm that knocks out nuclear power plants' ability to transmit power and destroys their backup power systems could very well trigger dozens or even hundreds of meltdowns.
John Kappenman
Mnemosyne
(21,363 posts)2. Chilling information at your links, bananas. Fifth rec! nt