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Nuclear
Waste And Radiation
Industrial processes produce wastes in the form of
used plant equipment, clothing, packaging, and
residual and surplus materials. In the nuclear
industry many of these wastes are radioactive or have
been contaminated with radioactive materials. Though
all radioactivity decays over time, in the interim
radioactive waste has to be stored or disposed of in
safe and secure conditions. This page explains in
detail what nuclear waste is and sets out government
policy for managing it.
Sources of nuclear waste
Nuclear waste comes from a number of different
sources:
- the operation and decommissioning of nuclear
power stations and fuel cycle plant
- nuclear research
- medical, industrial and other uses of
radioisotopes.
Nuclear waste is disposed of according to its form
and the level of its radioactivity.
Over 4 million cubic metres of waste are produced in
the UK each year, of which only 1% is radioactive
waste.
Categories of Nuclear
Waste (See right hand column)
Decommissioning
When they reach the end of their working lives, most
nuclear facilities will be dismantled and their sites
decontaminated. This is known as decommissioning. The
decommissioning time for nuclear facilities varies
considerably, from relatively short times to as long
as 100 years or more.
Radiation and Radioactive
Decay
Radioactivity decay of an isotope is measured as its
'half-life' characteristics. This is the time it
takes for the isotope to lose half of its
radioactivity. After one half-life the level of
radioactivity is halved; after two half-lives it is
reduced to a quarter; and so on.
To minimise risk when decommissioning first
generation reactors, the strategy is to allow natural
decay in radiation to a level where demolition
workers can enter wearing standard protective
clothing and use simple technologies.
However, in some circumstances, especially where
alpha contamination is involved, delaying
decommissioning can result in radioactivity levels
actually increasing. In such cases, earlier action is
prudent.
Managing Radioactive Waste
Safely
The management of nuclear waste is the biggest single
element in the cost of dealing with nuclear
liabilities. Radioactive waste is the inevitable
consequence of decommissioning and will require on-going
management for at least a hundred years.
To address uncertainties about future requirements
for safe radioactive waste management, the UK
Government, with the devolved Administrations in
Scotland, Wales and Northern Ireland, published a
consultation paper in September 2001. This was
entitled Managing Radioactive Waste Safely (MRWS).
It set out a programme to review the options for
management of solid radioactive waste and decide on a
strategy for long term protection.
The period for consultation on the MRWS paper
ended in July 2002. A summary of the responses can be
accessed here.
Committee on
Radioactive Waste Management
Following the Managing Radioactive Waste Safely
consultation exercise, the Government concluded that
a new committee should be established to review long-term
options for the safe management of its radioactive
wastes. The Committee on Radioactive Waste Management
(CoRWM), which is chaired by Dr. Katherine Bryan, is
expected to make recommendations to Ministers in 2006.
It will then be for Ministers to decide which options
to adopt for the long-term management of radioactive
waste.
Responsibility for
nuclear waste
The UK takes its responsibilities towards protecting
health and the environment very seriously. All
radioactive discharges from the UK are controlled by
the environment agencies.
Overall policy for radioactive waste management is
the responsibility of the Department
for Environment, Food and Rural Affairs (DEFRA)
and the devolved administrations. Further information
can be obtained from visiting the DEFRA web site.
Other Departments such as the Department of Health (Food
Standards Agency) and the Ministry of Defence also
have a close interest, as does the Health and Safety
Executive (HSE) and the Environment Agency (HA).
Disposal of nuclear waste
The UK currently disposes of most low level wastes,
mainly to the Drigg surface disposal facility in
Cumbria.
Until 1982, the UK disposed of some low and
intermediate-level wastes in drums at selected sites
in the deep ocean. This was discontinued and in 1993
the Government accepted an international ban on
disposal of radioactive wastes at sea.
In its 1995 policy statement on management of long-lived
low and intermediate (but not high) level wastes, the
Government gave UK Nirex the task of developing a
deep underground disposal facility. This would
isolate the waste from the environment while its
radioactivity decayed to safe levels.
Nirex carried out detailed surface geological studies
in the vicinity of Sellafield. In 1997, it was
refused planning permission for a Rock
Characterisation Facility to examine the geological
strata in which to construct the disposal facility.
Long term policy on management of these wastes is
consequently being addressed in MRWS.
Reprocessing
Reprocessing spent fuel recovers potentially re-usable
uranium and plutonium and separates out the very
small amount of waste. Spent fuel in itself is not a
nuclear waste. Owners of spent fuel can choose to
reprocess the fuel or to seek alternative management
options, though to date no one has disposed of spent
fuel. There is currently no technically proven
alternative to reprocessing Magnox fuel.
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Word document of The
Legacy section |
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| Categories Of Nuclear Waste |
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Very Low Level
Waste (VLLW)
Covers wastes with very low concentrations of
radioactivity. It arises from a variety of
sources, including hospitals and industry in
general. Because VLLW contains little total
radioactivity, it can be disposed of safely
with domestic refuse either directly at
landfill sites or indirectly after
incineration.
Low Level Waste (LLW)
Includes metals, soil, building rubble and
organic materials which arise principally as
lightly contaminated miscellaneous scrap.
Metals are mostly in the form of redundant
equipment. Organic materials are mainly in
the form of paper towels, clothing and
laboratory equipment that have been used in
areas where radioactive materials are used -
such as hospitals, research establishments
and industry.
Intermediate Level
Waste (ILW)
This is waste with radioactivity levels
exceeding the upper boundaries for LLW but
which does not need heating to be taken into
account in the design of storage or disposal
facilities. ILW arises mainly from the
reprocessing of spent fuel, and from general
operations and maintenance of radioactive
plant. The major components of ILW are metals
and organic materials, with smaller
quantities of cement, graphite, glass and
ceramics.
High Level Waste (HLW)
High level Waste (HLW) is heat generating
waste that has accumulated since the early
1950s at Sellafield and Dounreay, primarily
from the reprocessing of spent nuclear fuel.The
temperature in HLW may rise significantly, so
this factor has to be taken into account in
designing storage or disposal facilities. As
with ILW, there is currently no final
management strategy for HLW. |
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