By Jack Eidt and Jerry Collamer, wilderutopia.com
The Federal Emergency Management Agency’s (FEMA) Western Regional Director told me point blank, one month ago, after me peppering him with San Onofre Nuclear Generating Station (SONGS) post-reactor meltdown scenarios:
“That’s why they call it Disaster.”
Disaster: the past-present tense of our here and now, when we’re not careful. Disaster can be avoided, if you just don’t go there. Yet our human nature is to go, to build, to deny the omnipotent laws of nature, then suffer that all too familiar consequence – Disaster.
That’s what Mr. FEMA / Mr. Disaster was getting at. FEMA and First-Responders, don’t prevent Disaster. They mop up after. But Disaster can be preempted, or avoided entirely just by doing the right thing: utilize good common sense.
An official with Southern California Edison says the seaside plant has an outer shell made of concrete 4-feet thick and is designed to capture an unexpected release of radiation. (Mark Boster, Los Angeles Times / March 15, 2011)
It Can’t Happen Here?
Yesterday’s Los Angeles Times and Orange County Register published the reassuring words of Southern California Edison (SCE) officials and academic seismologists, claiming quake-meltdown-disaster could never happen here. The plant is designed for a 7.0 temblor and Japan’s 8.9 and the associated tsunami are “highly unlikely.”
Consider, however, a study from 2008 by the California Energy Commission called “An Assessment of California’s Nuclear Power Plants, AB 1632 Report.” It states that the region could experience larger and more frequent earthquakes than had been anticipated when the plant was designed, due to the late discovery of underground “blind thrust” faults. It goes on to recommend further study to characterize the seismic hazard, since less is known about the seismic setting than more fully studied Diablo Canyon in Central California.
The uncertainties are with regard to “continuity, structure and earthquake potential” of the nearby South Coast Offshore Fault Zone, and the faulting that connects to the Los Angeles (Newport-Inglewood Fault) and San Diego (Rose Canyon Fault) regions. There is also the potenial for as yet undiscovered blind thrust faults near the plant. A Long-Term Seismic Program is recommended to consider the as yet not-fully-considered.
At the Fukushima Daiichi nuclear plant, they also claimed “It won’t happen here.” The latter plant was designed for only a 7.9 quake as the “worst case scenario.”
As well, a study from the Electric Power Research Institute admits: “The Richter scale alone does not capture the dangers or risks posed by specific quakes.” Multiple, unforeseen disasters, quake, tsunami, floods, loss of both primary and backup power, pose the real dangers to an undertaking as complicated and dangerous as nuclear fission.
The California Energy Commission study also mentioned submarine landslides could generate large local tsunamis, a fact not fully understood when SONGS was built. While some consider the 30-foot-high reinforced concrete “tsunami wall” as invincible, others have questioned its durability. Sadly, the walls protecting the Fukushima Daiichi facilities did not stop the backup generators from being flooded, causing the fail.
What have the SCE engineers and academic seismologists not fully considered here, when the Big One hits?
San Onofre Earthquake – What If?
Consider SONGS’ precarious seating arrangement: on sand – over a fault – at water’s edge. Then consider its age.
A SONGS 7.5 earthquake scenario:
1) SONGS sinks into its suddenly liquified sand base / liquefaction
2) Tsunami like ocean occurrence overwhelms SONGS’ crumbling sea wall, swamping the cracking, steaming, radiating, eternally hot hell-hole that was moments before SONGS
3) Remains too hot to handle for 50,000 years, or longer. But who’s counting?
Are we prepared for that?
Or something half that?
Or a third that?
Or a quarter that?
It Can Happen
Test Model: Japan – July 16, 2007.
Kashiwazaki-Kariwa Nuclear Facility in Niigata Prefecture on the northwest coast of Japan falls victim to a 6.8 shaker. Built over a fault, in an earthquake prone region, at waters edge. Though damage to the facility was limited and “less than expected,” radioacive iodine did escape from a leaking pipe. Ground motion caused water to slosh in the spent nuclear fuel storage pool and spill into the nuclear plant’s reactor buildings. Contaminated water leaked into the Sea of Japan from damaged conduits. SCE uses both pools and dry cask storage. A loss of cooling event could be precipitated by an earthquake or terrorist event; SCE claims they are safe.
And now the ongoing post-quake-tsunami crisis at Fukushima.
Most asked question post Japanese disaster:
“Why did you build it there?”
The engineers planned and built SONGS (before super seismic hazard mapping computer models, before they knew there was a fault sleeping beneath it) designed it to last until 2013. Not 2014, 2015, 2016, or 2020 (as it has recently been approved for).
So who’ya gonna trust? The engineers who created SONGS? Building it to a 2013 end date – or SONGS owner-operator Edison, working to extend SONGS’ shaky, aged existence to 2020 or longer – on sand, over a fault, at water’s edge?
Remember Mr. FEMA’s tutorial:
“That’s why they call it, Disaster.”
Using common sense is the antidote to a SONGS disaster: 2013-end-date, game over.
See the related story: “San Onofre Nuclear Generating Station: Scariest Workplace in the USA” by Jerry Collamer.
Jack Eidt and Jerry Collamer are founders of Wild Heritage Planners, based in Southern California.
For years I have battled a plan to build an elevated toll road over Orange County’s major flood control channel in an area known for liquefaction, and only a few miles from the epicenter of the Long Beach Earthquake.
There’s this distinct chance for leveraged disasters, where a severe earthquake knocks millions of tons of concrete into the riverbed. Even if it doesn’t rain for months, scarce resources must be diverted from other projects to clearing the river bed.
We see the leveraged disaster scenario unfolding in Japan, where quakes wiped out the primary power source and tsunamis destroyed the first set of diesel back-up pumps.
The extraordinary damage of the earthquake and tsunami is exacerbated by the loss of a good percentage of the nation’s electricity and the need to devote precious resources to evacuation and damage control.
I’d have a lot more faith in the assurances of SCE and other power companies if they didn’t foist off the liability for accidents on the public.
When profits are private, but risks are public, it’s a recipe for disaster. How often do we need to see that happen before we as a society utterly reject that formulation?
If the energy companies aren’t willing to assume the full responsibility for the consequences of an accident, then that’s highly suggestive of the fact that the enterprise presents an unacceptable level of risk.
that was the magnitude at the epicenter. on the coast where the reactors are located, it was more like a 7.0. san onofre’s also right on the beach, and thus at risk of a tsunami much like fukushima daiichi.
PGE has their nuclear plant at Diablo Canyon
SURPRISE !!
It’s built on a fault line !!!
What are the odds ?
Two California nukes and BOTH built on earthquake fault lines
Don’t worry about the safety thogh ………..
It was built by the same scientists that designed PGE gas transmission lines !!!
PS
I think President Obama is proposing $54 BILLION in Loan Guarantees for new Nuclear plants !!
They’re Clean, Reliable and Environmentally Friendly !!!