4. Unstable atoms emits alpha, beta, gamma as
radiation and get stable state – radioactivity
Radioactive atom/ radionuclide/radioisotope
– atom which emit radiation
5. Radioactive pollution can be defined as the
emission of high energy particles or
radioactive substance into air, water or land
due to human activities in the form of
radioactive waste.
Radioactive waste is usually the product of a
nuclear process such as nuclear fission, which
is extensively used in nuclear reactors,
nuclear weapons and other nuclear fuel-
cycles the product of a nuclear process
6. Sources of radioactive
contaminants:
Production of nuclear fuel
Nuclear power reactors
Nuclear tests carried out by Defense
Personnel
Disposal of nuclear waste
Uranium Mining
7. Frequency and Duration of
Radioactive Pollution:
Continuous pollution:This type of condition exists in
uranium mines, nuclear reactors, test labs etc. where the
humans are under continuous exposure to radioactive
contaminants and protective clothing is required to avoid
radiation exposure.
Accidental Pollution:This type of condition exists during
accidental exposure to radiations by virtue of equipment
failure, radiation leak, faulty protective equipment etc.
Occasional Pollution:This condition exists during
isolated experiment or test of nuclear substance.
9. Naturalradiation
Natural - from the beginning of earth-we
are always exposed to it
Cosmic rays will create +vely charged
particles and high energy photons -it
interact with normal atoms produce radio
nuclides
It enter to earth
Uranium 235,238,thorium232,radium
226,potassium 40 etc
10. Alpha = helium nuclei 4he2 ,
it can stop by even paper
sheet
Beta = electrons and
positrons, stopped by glass
wood etc
Gama rays = high energy
photons, lead or concrete
11. Measurement SI unit
Becquerel
1 Bq = 1 disintegration per second
Half life – time period required to radioisotope
fall in to its half
Absorbed dose ,D - energy absorbed by unit
mass of materiel , unit – gray
Dose equivalent ,H – product of absorbed dose
and quality factor(relative biological
effectiveness) sievert is unit
linear energy transfer = energy deposited unit
length of the track with respect to x – rays
(normalised to 1) – help to know damage
12. Radioactive pollution that is spread
through the earth’s atmosphere is called
“Fallout”. The atmospheric nuclear
pollution become prominent during the
world war 2 period when United States,
Britain and Soviet Union started
conducting nuclear tests in the
atmosphere. The best example of fallout is
the nuclear bomb attack on Hiroshima and
Nagasaki, Japan in 1945 by United States
of America during world war 2.
As a result of nuclear bomb attack, nearly
2,25,000 people had died as a result of
16. Man made hazards
X - ray diagnosis -90%
radiation
Nuclear technology – nuclear
weapon manufacture, nuclear
fuel cycle
Each process from mining to
management leads to hazards
Nuclear reactor –electricity
17. Biologicaleffects
Ionization of H2O –H2O2 PRODUCTION
Cell damage , cell death ,DNA damage,
mutations
Genes controlling cell division –
disturbed – cancer
Skin ,gastro intestinal track lining –
speed damage and repair
25. Strontium
Radioactive Sr-90, like many other radio nuclides, was discovered
in the 1940s in nuclear experiments connected to the development
of the atomic bomb.
Strontium-90 is a by-product of the fission of uranium and
plutonium in nuclear reactors, and in nuclear weapons
Strontium-90 emits a beta particle with, no gamma radiation, as
it decays to yttrium-90 (also a beta-emitter). Strontium-90 has a
half-life of 29.1 years. It behaves chemically much like calcium,
and therefore tends to concentrate in the bones and teeth.
26. The accident at the
Chernobyl nuclear power plant
also introduced a large
amount of Sr-90 into the
environment
People may inhale trace
amounts of strontium-90 as a
contaminant in dust. But,
27. Health Effects of Strontium-
90
Strontium-90 is chemically similar to
calcium, and tends to deposit in bone
and blood-forming tissue (bone marrow).
Thus, strontium-90 is referred to as a
"bone seeker." Internal exposure to Sr-
90 is linked to bone cancer, cancer of
the soft tissue near the bone, and
leukemia.
Risk of cancer increases with increased
exposure to Sr-90. The risk depends on
the concentration of Sr-90 in the
28.
29. cesium
. Radioactive cesium-137 is produced when uranium and
plutonium absorb neutrons and undergo fission
The half-life of cesium-137 is 30 years. It decays by emission of
a beta particle and gamma rays to barium-137m.
Whether people's health is at risk is not clear, however.
Epidemiologists still argue over how many cancers were
caused by caesium released by Chernobyl
30. uses
Cesium-137 is one of the most common radioisotopes used in industry.
Thousands of devices use cesium-137:
moisture-density gauges, widely used in the construction industry
leveling gauges, used in industries to detect liquid flow in pipes and tanks
thickness gauges, for measuring thickness of sheet metal, paper, film and
many other products
well-logging devices in the drilling industry to help characterize rock strata
Cesium-137 is also used in medical therapy to treat cancer
31. •10,50,100 m depth earth
• In boxes &Containers
•Closure &post closure
Waste disposal