Yucca Mountain-Right or Wrong?
As the United States' nuclear waste buildup becomes larger, the need for a permanent
storage facility becomes more urgent. One proposed site is in the Yucca Mountains of
Nevada. This makes many Nevadans uneasy, as visions of three-legged babies and
phosphorescent people come to mind. This is an unfounded worry, as many reasons prove.
In fact, the Yucca Mountains provide an ideal site for a permanent underground nuclear
waste facility in the U.S.
While the Yucca Mountains are the best site we have found as of yet, this procedure will
cost a huge amount of taxpayer dollars. The Department of Energy (DOE) estimates the
total cost of its high-level waste management program at $25-35 billion. Completing the
scientific investigation and licensing of the Yucca Mountain site is expected to cost
$6-7 billion alone. At the end of 1993, total nuclear waste fund expenditures through
the end of the year were nearly 3.7 billion. Very little of this money comes from
individual investors. If a retrievable facility (one where the casks of spent fuel can
be retrieved later) is built, this will be a good deal more. Other disposal types, such
as
sub-seabed and space disposal may prove to be cheaper at a later time.
This is a cause for concern, but there are a greater amount of reasons to further and
eventually finish the Yucca Mountain Project. One is the desert climate naturally
occurring in the western United States. The weather is dry and warm and their are very
few natural disasters, such as earthquakes. Also, this part of the nation has a lower
water table than the rest of the country. This reduces the risk of water contamination
in case of a breach.
This is only one safety cushion that the proposed site provides. There are several more.
All of these factors add up to a relatively stable environment. But will it be stable
enough? If a permanent site is constructed, it will have to remain stable for 10,000
years. This is a very long time, considering the United States has only existed for a
little over 200. During this period, if a breach occurs, the western United States'
water supply could become contaminated, and cost the federal government even more to
clean. The question is whether or not the United States want to spend money now or
later. The safety of highly dangerous materials is a matter of national security. If a
breach were to occur and contaminate the western section of America, it would be more
devastating than a nuclear bomb. That is why the Yucca Mountains are being speculatively
chosen for this purpose. Throughout the United States, no better area has been found.
Safety of this hazardous material is not only crucial in it's final resting place.
Security en route to the site is also of utmost importance. If this site is chosen, a
safe transportation method will be needed to move the radioactive materials to the Yucca
mountains. Vehicles, that will only be used once, will have to be custom built for
safety
and security, as will containers for the spent fuel rods. This would also be, however
unlikely, a prime target for a terrorist attack. There would be no way to hide a
biohazard convoy, so extra security measures must be taken. All of these measures add up
to extra costs, obviously. And as the nation waits, the costs multiply.
But expenses are second only to safety of the facility and speed in which it is
constructed. At the present moment, all of the United State's nuclear waste is held in
above-ground pools and airtight casks, inside the country's many commercial power plants.
This is all right for now, but how much longer will there be enough space to hold
thousands of metric tons of radioactive materials? And the longer these materials sit
above ground, the greater the odds of a catastrophe. These hazardous materials must be
placed and stored in a stable environment soon, where the risk is significantly lower.
While these methods may prove better and cheaper in the future, we need a place to put
the huge accumulated amount of spent fuel rods and radioactive materials. Subterranean
storage is the most viable method that technology will allow. The aforementioned Yucca
mountains provide all the desirable features for this method. The mountains were formed
by a volcanic eruption and the rock surrounding the site is a type called volcanic tuff.
It is a very stable kind of rock, and often encases salt beds, which are ideal for
nuclear containment. These beds are virtually waterproof, so water will not seep down in
the groundwater residing beneath the storage structure. Also, fractures in the salt are
self-sealing, which will stop radiation for simply floating up to the surface through
pores, cracks, or faults in the rock. This type of host rock (the rock that surrounds the
site) will give the site both a man-made and natural protection.
But perhaps the most beneficial protection is the remoteness of the location of the site.
Located in Nevada, which has a very low population density (only 0-2 people per square
mile*) the risk of humans accidentally tampering with the repository is very low. Also
to be noted is that there will be no construction or utility digging. Nevadans will see
to it that the site stays untouched.
All points taken, the Yucca Mountains are currently the best spot to store the country's
ever growing buildup of nuclear waste. Due to it's remote location, secure land
formations, and low water table, this area provides an ideal and secure spot for the huge
amount of potentially harmful material. The U.S. is in dire need of a permanent nuclear
waste disposal site, and this is the best option right now. The usual dawdle of the
federal government will only act against us in this matter.
|