|
Archives
Where Will All The Deadly Waste Go?
BEAUMONT-HAGUE, FRANCE (AP) - Thousands of canisters of highly radioactive
waste from the world’s most nuclear-energized nation lie, silent and deadly,
beneath this jutting tip of Normandy. Above ground, cows graze and Atlantic waves
crash into heather-covered hills.
The spent fuel, vitrified into blocks of black glass that will remain dangerous
for thousands of years, is in “interim storage.” Like nearly all
the world’s nuclear waste, it is still waiting for the long-term disposal
solution that has eluded scientists and governments in the six decades since
the atomic era began.
Industry officials hope renewed worldwide interest in nuclear energy will
break a long-awkward silence surrounding nuclear waste. They want to revive
momentum
for scientific and political breakthroughs on waste that stalled after the
accidents at Three Mile Island in 1979 and Chernobyl in 1986, which raised
worldwide fears
about radioactivity’s risks to human and planetary health.
So far, though, recent talk of a nuclear renaissance has focused on the “front
end,” or reactor construction. Engineers are designing the next generation
of reactors to be safer than today’s - and they’re being billed
as a solution to global warming. Nuclear reactors do not emit carbon dioxide,
blamed
for heating the planet.
Few people have been talking about the “back end,” industry-speak
for the hundreds of thousands of tons of waste that nuclear plants produce
each year, and the lucrative, secretive business of storing it away.
Waste “is the main problem with this so-called nuclear rebirth,” said
Mycle Schneider, an independent expert who co-authored a recent study for the
European Parliament casting doubt on a global nuclear resurgence. He ways government
efforts to revive nuclear energy will stall without a “miracle” solution
to waste disposal.
Workers at this waste treatment and storage site on France’s Cherbourg
peninsula, run by industry giant Areva, don’t see a problem.
Though much of the technology here dates from the 1970s and 1980s, they point
to a strong safety record and the 26,000 environmental tests conducted every
year as evidence that the public has nothing to fear from their activity.
The tests routinely find crabs, cows and humans living nearby to be healthy.
One longtime plant employee gestured toward her pregnant abdomen, holding her
third child, as proof that there’s nothing to worry about. Plant officials
say strict security measures, tightened since the Sept. 11 attacks, rule out
terrorism risks.
Greenpeace questions state-run Areva’s safety figures, and accuses
the government of playing down accidents and soil and water contamination.
A group
called Meres en Colere, or Angry Mothers, was formed in the region after a
1997 study showed higher than usual local rates of child leukemia, a malady
linked
to radiation exposure.
Now the “pros” are on a new mission to dispel a generation of scares
and suspicion, saying nuclear power is less dangerous to humans and the Earth
than burning oil or coal. The “antis” say nuclear energy can never
offer 100 percent protection from its radioactive ingredients.
The splitting of uranium atoms in a nuclear reactor creates the exceptional
heat that drives turbines to provide electricity. The processes also create
radioactive
isotopes such as cesium-137 and strontium-90 that take about 30 years to lose
half their radioactivity. Higher-level leftovers include plutonium-239, with
a half-life of 24,000 years.
Direct exposure to such highly radioactive material, even for a short period,
can be fatal. Indirect exposure, through seepage into groundwater, can lead
to life-threatening illness for those living nearby and environmental damage.
For now, the best scientific solution for getting rid of the most lethal
waste is to shove it deep underground.
Yet no country has built a deep geological repository. Governments meet protests
each time one is proposed. The Yucca Mountain waste site in Nevada was commissioned
in 1982 and is still awaiting a license.
Another option is recycling. Countries such as France, Russia and Japan reprocess
much nuclear waste into new fuel. That dramatically reduces the volume: Forty
years’ worth of France’s highly radioactive waste is stored under
just three floor surfaces, each about the size of a basketball court, at Beaumont-Hague.
Recycling, though, produces plutonium that could be used in nuclear weapons
- so the United States bans it, fearing proliferation.
And not all waste can be reprocessed. The deadliest bits - such as fuel rod
casings and other reactor parts as well as concentrated fuel residue containing
plutonium
and highly enriched uranium - must be sealed and stored away.
That’s what lurks 10 feet underground at this Normandy plant: More
than 7,000 cylindrical steel canisters, each about the height of a parking
meter,
stacked and sealed upright in holes beneath the slick floor. Some contain compacted
radioactive metal, the others hold spent fuel that has been vitrified into
glass.
Among other ideas once floated for disposing of nuclear waste have been shooting
it into space (deemed too risky because of the volatile rocket fuel) or injecting
it in the ocean floor (stalled because testing its feasibility is too costly),
or shipping all the world’s waste to a collective nuclear dump.
The last idea proved too diplomatically delicate. But Greenpeace and Norwegian
environmental group Bellona say European nations have for years been illegally
shipping radioactive waste to Russia and leaving it there.
Current research in industry leader France - which relies on nuclear energy
for more than 70 percent of its electricity, more than any other country -
is focusing
on new chemical processes that would shrink nuclear waste and cool it faster.
It will be at least 2040, though, before these might be put to use, scientists
estimate. Schneider says scientists are “creating work for themselves” be
researching methods that may never be commercially feasible or do much to solve
the long-term waste quandry.
The World Nuclear Association, an industry group, disagrees, citing increasing
interest in waste research by governments. The managers at the Normandy plant
say long-held taboos about the industry are fading.
“
We have the best scientific solution for treating waste,” deputy director
Eric Blanc said, referring to the plant’s vitrification process and network
of cooling pools. “Others are coming all the time to study it.”
The plant used to have Webcams and “open house” days for people
from nearby communities, but both practices were stopped after 9/11. Now the
Defense
Ministry regularly monitors the plant.
The French fuel stays in Normandy indefinitely, while bulkier, lower-level
nuclear waste is piling up in dumps worldwide.
Nuclear scientists’ dream is a wasteless reactor, and some sketches
for the next crop of reactors, the Generation IV, include those that recycle
100
percent of their refuse.
Both nuclear fans and foes agree, however, that it will take a few more human
generations for that dream to come true.
Archives
|
