THE NUCLEAR POWER DEBATE
In 1953, nuclear energy was introduced into America as a cheap and efficient energy
source, favoured in place of increasingly scarce fossil fuels which caused air pollution.
Its initial use was welcomed by the general public, as it was hoped to lower the price
of electricity, and utilise nuclear power for it's potential as a resource, not a weapon.
However, as people became aware of the long term dangers involved in storing nuclear
waste, it's use was criticised. Two accidents, at Three Mile Island and Chernobyl,
demonstrated to the world the enormous risks involved in producing nuclear power.
Nuclear power provides 17% of the world's electricity but coal is the main source,
making up 39%. However, fossil fuels such as coal, require greater quantities to produce
the equivalent amount of electricity produced from Uranium. The use of nuclear power
opposed to burning fossil fuels has reduced carbon dioxide emissions by 2 billion tonnes
per year, minimising the global warming effect on the atmosphere. Carbon dioxide is
responsible for half of man made gases contributing to the Greenhouse Effect, and has
sparked action from the UN Intergovernment Panel on Climate Change. Their consensus is a
concern for the environment in the next century if fossil fuels continue to be used, even
at present global levels. The Panel claims that for carbon dioxide to be stabilised to
safe levels, a 50-80% reduction in all emissions would be required.
The United Nations has predicted a world population growth from 5.5 billion to 8.5
billion by the year 2025, meaning demand for energy will increase. Nuclear power is the
only practical source, in consideration for the environment, cost and efficiency.
Coal-fired generation of electricity would increase carbon dioxide emissions, and
renewable sources such as solar and hydro, are not suitable for large scale power
generation.
Nuclear power is not without its own implications. The process includes disposing of
radioactive waste, which poses a threat to the environment and the world if not contained
properly and temporarily disposed of with maximum security. In the
thesis, "Nuclear power: an energy future we can't afford", by Peter Kelly from Hamilton
College, he wrote,
"...we'd still have to worry about terrorists making bombs out of nuclear waste. Just
five pounds of plutonium, a component of nuclear waste, is enough to make a nuclear bomb.
Such a bomb could topple the World Trade Centre and kill hundreds of thousands of
people...Terrorists may be able to recruit disgruntled scientists..."
Disposing of nuclear waste is extremely controversial, because it takes thousands of
years to decompose, and the radiation remains active.
Other than the environmental effects of disposing nuclear waste, the potential of
radioactive fallout from a faulty reactor is a dangerous possibility, and the events
following the accident at Chernobyl demonstrated the long term destructiveness radiation
is capable of. In 1986 at Chernobyl, an unauthorised experiment conducted with the
cooling system turned off, lead to the explosion of one of the reactors. The radioactive
fallout spread through the atmosphere, reaching into northern Europe and Great Britain.
The Soviets claim 31 people died directly from the accident, while deaths due to
radiation are yet to be determined. Radiation sometimes causes genetic mutations in the
child whose parents were exposed to radiation. A few years ago on the television program
'60 Minutes', they presented a story on the after effects of the Chernobyl accident.
They revealed horrific shots of mutated embryos preserved in jars, the most disturbing,
an embryo named 'Cyclops', because it only had one eye.
While nuclear power is more efficient and environmentally safer in terms of global
warming than fossil fuels, it has a destructive potential that cannot be ignored.
Electricity, generated from the nuclear fission of Uranium 235 or Plutonium 239 are both
elements which are used in nuclear weapons. Radiation either from waste or fall out from
a reactor explosion can cause detrimental effects, both long and short term, to the
environment and society. Precautions must be taken in security, disposal, and generation
of nuclear power and its waste, in order for it to be a successful resource and temporary
alternative. At present, renewable energy sources are too expensive and are not
suitable for large scale power generation. However, advancing technology may improve on
current systems, making them more efficient and suitable for major electricity
generation. Peter Kelly concluded his thesis, "...nuclear power should be seen as a way
to tide us over to an age of conservation and renewables. Barring an unexpected
breakthrough in fusion, the age of nuclear power will end in the foreseeable future."
BIBLIOGRAPHY
1. Microsoft Encarta '95 Microsoft Corporation
1994-95
2. Nuclear power: an energy future we can't afford Peter Kelly
3. World Energy Needs and Nuclear Power Unknown
Nuclear Issues Briefing Paper 11 June 1996
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