Nuclear Energy 433
PROCESS DIAGRAM
Fission of uranium-235
occurs in the reactor
vessel, producing heat
used to produce steam
in the steam generator.
Steam leaving the
turbine is pumped
through a condenser
before returning to
the steam generator.
The steam drives a
turbine to generate
electricity.
After it is cooled,
the water is
pumped back to
the condenser.
Pumping hot
water from the
condenser to a
lake or cooling
tower controls
excess heat.
Steam turbine
Condenser
Steam
generator
Heat exchanger
Containment building
Control rod
Uranium fuel assembly
Reactor vessel
Reactor core
Liquid water under
high pressure
2
1
3
5
4
Cooling tower
Electric
generator
Electricity
Approximately two-thirds of all
nuclear power plants in the
United States are of this type.
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#OMPARISON OF ENVIRONMENTAL IMPACTS OF
MEGAWATT COAL AND CONVENTIONAL NUCLEAR POWER PLANTS
s 4ABLE
Impact Coal Nuclear (conventional fission)
Land use 7000 hectares 800 hectares
Daily fuel requirement 9000 tons (of coal)/day 3 kg (of enriched uranium)/day
Availability of fuel, based on present economics Around 100 years 100 years, maybe longer
Air pollution Moderate to severe, depending Low
on pollution controls
Climate change risk (from CO 2 emissions) Severe Small**
Radioactive emissions, routine 1 curie 28,000 curies
Water pollution Often severe Potentially severe at nuclear waste disposal sites
Risk from catastrophic accidents Short-term local risk Long-term risk over large areas
Link to nuclear weapons No Yes
Annual occupational deaths 0. 5 to 5 0.1 to 1
*Impacts include extraction, processing, transportation, and conversion. Assumes that coal is strip-mined. (A 1000-MWe utility, at a 60 percent load factor,
produces enough electricity for a city of 1 million people.)
**Currently, nuclear power requires the use of fossil fuels for mining, construction, processing, transportation, and waste management, and so it cannot be
considered carbon free.