Plutonium-239 doesn't have to be used in
weapons, but after converting it to fuel, there aren't many other practical
options.
When the
United States broke off cease-fire talks with Russia over the war in Syria
(after the Russian air force continued to bomb civilians in Aleppo), Russian
President Vladimir Putin retaliated by suspending a nearly two-decade
old arms agreement to get rid of his country's extra
weapons-grade plutonium.
Signed in
2000, the Plutonium Management and
Disposition Agreement stipulated that each country dispose of
weapons-grade plutonium they deemed no longer required for defense purposes.
Each country agreed to get rid of 34 metric tons (that's about 37.5 standard
tons) of its excess stockpile.
Much of that
excess is from the dismantlement of tens of thousands of
Cold War nuclear weapons. Russia has stored some of it in the closed city of
Seversk, in western Siberia--home to two of its former plutonium-producing
nuclear reactors and, at one time, among the largest nuclear complexes on the
planet. When the treaty was signed in 2000, the Russians were, according to The
Economist, storing highly-enriched uranium and plutonium from dismantled nukes
in 23,000 canisters at
the site.
The U.S.,
meanwhile, has been storing much of its plutonium at the Pantex Plant near
Amarillo, Texas, which oversees the final assembly and disassembly of many of
the country's plutonium, until it can be disposed. Originally, the plutonium
was to be stored in a storage vault at Los Alamos National Laboratory before
those plans were scrapped and Pantex was repurposed as a
long-term storage option.
Neither
Russia nor the U.S. has been quick to dispose of their excess plutonium. (It's
extremely difficult to do). But with Russia now in essence putting that
stockpile back on the table in its geopolitical game of Risk, many questions
arise. Namely, what is this stuff? And how the heck do we get rid of it?
What Is Weapons-Grade Plutonium?
As its name
implies, weapons-grade plutonium is very good at exploding. The reason for this
is the presence of plutonium-239--a plutonium isotope characterized by its long
lifespan (half-life: more than 24,000 years) and an ability, when smashed, to
release a lot of energy; One kilogram of plutonium-239 releases more energy
than the 64 kilograms of uranium that were in the Little Boy bomb the U.S.
dropped on Hiroshima in World War II.
This
particular plutonium is a byproduct of uranium-238 (a naturally-occurring form
of uranium and the the most abundant on earth, found in uranium mines across
the globe), after it has been used in nuclear energy reactors. Plutonium-239
packs its most powerful punch in high concentrations. So-called weapons-grade
plutonium--the type Russia and the U.S. have on hand--is at least 93 per cent
plutonium-239, with the remaining seven per cent being other plutonium
isotopes.
Breaking
apart at devastatingly high speeds is pretty much the only thing plutonium-239
is good at. There aren't many other practical uses for it. It could be used to
(slowly) heat water, sold by the government in one gram amounts as reference samples, or
serve as a very dense, mostly safe paperweight--in small chunks, plutonium-239
doesn't let off much spontaneous radiation. (Plutonium-238, a close relative,
can power things; NASA uses it to power its deep-space probes.) But
plutonium-239 releases so much more energy that it can only be used in certain
kinds of nuclear reactors. Since its discovery during the Manhattan Project in
the 1940s, it has first and foremost been a weapon.
How Do We Get Rid of This Stuff?
One reason
the disposal agreement between Russia and the U.S. took a decade to settle was
that they couldn't agree on how to dispose of this stuff. The only realistic
option, and the one settled on, was to convert it into plutonium oxide, a
chemical compound of plutonium and oxygen, which could still--by the way--be
used as a small nuclear weapon, but which the countries intended to combine
with uranium oxide to create mixed oxide (MOX) fuel. That's stuff that can be
used in commercial power reactors. As a bonus, MOX fuel cannot be used for
weapons, meaning once the plutonium-239 is caught up in it, it can't be
returned to its original, explosive state.
It's an
expensive process. The U.S. began construction in 2007 on a facility at the
Department of Energy's (DOE) Savannah River Site in
South Carolina to convert the surplus plutonium-239 to MOX fuel. The MOX Fuel
Fabrication Facility is still unfinished and beleaguered by opposition; Neither
the government nor U.S. commercial reactors are properly equipped to handle MOX
fuel. It's expected to cost as much as $10 billion
to finish construction, and the cost of converting 34 metric tons of plutonium
is expected to cost an additional $24 billion.
Science has
stepped in to help. The Advanced Recovery and Integrated
Extraction System (ARIES) at Los Alamos has taken on a few
hundred kilograms a year. ARIES was created in the 1990s as a test system for
dismantling nuclear warheads and converting their chunks of plutonium, called
“pits,” into plutonium oxide. With the MOX facility unfinished, this is the
only way to convert the U.S. surplus to MOX fuel.
ARIES is an
eight-step process. It handles everything from dismantling a weapon, removing
its pit, converting the pit's plutonium into a plutonium oxide before further
refining it, and ultimately packaging it for long-term storage in a vault at
Los Alamos' Technical Area 55 Plutonium
Facility. The work is every bit as challenging as it sounds:
Technicians dismantling a weapon must work through gloveboxes. These large,
airtight containers separate the technicians from the weapon, and all of their
work is done through a series of large gloves attached at various points. It
involves firing the plutonium pits, carved into chunks, in furnaces until they
become the sand-like plutonium oxide.
Extracting
plutonium pits--spheres that resemble apricot or peach pits--from dismantled
nuclear weapons is delicate work, made even more complicated by the glovebox
surrounding the weapon and keeping the technicians safe.
The U.S. had
planned a Pit Disassembly and Conversion Facility, also intended for the
Savannah River Site, to dismantle U.S. warheads, but that was cancelled in
2011. ARIES has thus taken over that task. In its first year of operation, it
produced over 200 kilograms of plutonium oxide. “If requested by the [National
Nuclear Security Administration] to move from a process development to a
production mission, we stand ready to serve. We can do it,” Alex Enriquez, an
ARIES manager, told Los Alamos' National Security Science
publication in 2012. “Not as fast, of course, nor on the scale
of a large, dedicated facility, but our process works.”
At its
current rate of 300 kilograms per year, it would take ARIES well over 100 years
to convert all 34 metric tons of plutonium the U.S. has agreed to dispose.
It will take
decades for the U.S. to convert its excess plutonium-239 into fuel, but even
longer to wait for it to decay naturally—about 24,000 years.
So What's the Hold Up?
The DOE is
stepping away from its MOX plans. It's 2017 budget requests $270 million
to terminate the MOX Fuel Fabrication Facility's construction, and asks an
additional $15 million to pursue a dilute-and-dispose option. Instead of
converting the excess plutonium into MOX fuel, the new plan is to
blend the plutonium oxide with a series of cementing, gelling, thickening
and foaming agents into a mixture called “stardust.” National
Nuclear Security Administration [NNSA] experts informed Popular Science
that for the dilute-and-dispose method, plutonium oxide is still necessary. Its
sand-like quality makes it possible to mix it into the stardust.
A Los Alamos
report indicates that by the end of the process, stardust is less then 10 per
cent plutonium. As an added precaution, the stardust would be sealed in double-layered stainless steel
containers and stored in a “geologic repository”--perhaps at the Waste Isolation Pilot Plant
in New Mexico, where other nuclear waste is stored. In other words, it would be
buried.
NNSA experts
also said that in order to pursue the dilute-and-dispose method, Los Alamos is
in the process of expanding its ability to convert weapons-grade plutonium to
plutonium oxide. ARIES is committed to two metric tons of plutonium oxide--the
rest will be done on-site once Los Alamos can handle the task.
In a
statement to Popular Science, the DOE said the U.S. remains committed
to verifiably disposing of its excess plutonium, despite Russia's walk-back on
the pledge. It also confirmed that the dilute-and-dispose method is now being
pursued for plutonium stores not covered by the agreement, rather than the MOX
fuel method, because dilute-and-dispose will be cheaper and quicker to
implement.
The
agreement states that the 34 metric tons of weapons-grade plutonium being
disposed must either be used as fuel--which is why Russia had chosen to convert
its excess into MOX fuel--or converted into immobilized forms. NNSA experts
said that the dilute-and-dispose method can be considered an immobilized form
under the terms of the agreement once it has been mixed into stardust and
stored.
The U.S.
Department of State, which oversees the country's involvement in the agreement,
has not responded to questions about how long it will take for the U.S. to
complete its disposal of its 34 metric tons of weapons-grade plutonium and
whether the dilute-and-dispose method will be used for it.
There's no
word on what Russia plans to do.
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