Visualizing Environmental Science

(Marvins-Underground-K-12) #1
Nuclear waste
receiving building

Hoist
building

Filter
house
Administration
building

1000 feet

Rock strata

Steel waste
canisters containing
spent nuclear fuel

Mine
level

Ventilation
shaft

Waste
shaft

Tunnel

Shaft
for people,
material

Tunnel network

Peter Essick/Aurora Photos

a. This tunnel provides access to nuclear waste storage at Yucca
Mountain, an arid, sparsely populated area of Nevada.

b. An environmental scientist thinks about the huge complex
of interconnected tunnels located in dense volcanic rock 300 m
(1000 ft) beneath the mountain crest. Canisters containing
high-level radioactive waste can be stored in the tunnels.

Nuclear Energy 437

be operational by 1998. (The deadline was postponed
several times.)
In a 1987 amendment to the Nuclear Waste Policy
Act, Congress identified Yucca Mountain in Nevada as
the only candidate for a permanent underground stor-
age site for high-level radioactive wastes from commer-
cially operated power plants (see What a Scientist Sees).
Since 1983 the U.S. Department of Energy has spent
billions of dollars conducting feasibility studies on
Yucca Mountain’s geology. In 2002 Congress approved
the choice of Yucca Mountain as the U.S. nuclear-waste


repository, despite controversy and opposition from
the state of Nevada. In 2009 the Obama administra-
tion withdrew support for Yucca Mountain; as of 2012,
a new siting process had not been announced.
Transporting high-level wastes from nuclear reactors
and weapons sites is a major concern of opponents of the
Yucca Mountain site. A typical shipment would travel an
average of 3700 km (2300 mi), and 43 states would have
waste passing through them on their way to Yucca Mountain.
Whether or not nuclear waste is eventually stored in
Yucca Mountain, the scientific community generally agrees

WHAT A SCIENTIST SEES


Yucca Mountain

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