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Chernobyl Consequences and Solutions

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Chernobyl Consequences and Solutions Amy Banks [4005714] Sam Blackburn [4003810] H23 G07 Environmental Geotechnics Presentation Background and History April 26th ... – PowerPoint PPT presentation

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Title: Chernobyl Consequences and Solutions


1
Chernobyl Consequences and Solutions
  • Amy Banks 4005714
  • Sam Blackburn 4003810

H23 G07 Environmental Geotechnics Presentation
2
Background and History
  • April 26th 1986 Chernobyl Nuclear Power Plant
    suffered a horrendous accident.
  • Nuclear Fallout scattered over Ukraine, Belarus
    (70), Russia.
  • Fallout found as far away as Wales (most of the
    Northern Hemisphere experienced some
    contamination).
  • 50 deaths directly attributed so far to the
    accident, however recent studies estimate this
    will rise to 4,000.
  • Substantial economic, social and healthcare
    effects.
  • Initial concerns were based around radioactive
    iodine, but now theres increasing concern around
    the contamination of soil by Strontium-90 and
    Caesium-137.

3
Chemicals of Main Concern
  • Caesium-137 (Gamma rays)
  • Highly Toxic with a half life of 30 years
  • Similar to Potassium
  • Found in top soil
  • Easily absorbed by plants and animals.
  • 21 of Belarus Remains Contaminated
  • Strontium-90 (Beta rays)
  • Highly Toxic with a half life of 28 years
  • Easily soluble in water, consequently difficult
    to track
  • Contributes to bone disorders and diseases,
    Substitutes for calcium in bone
  • 80 Strontium now passed into natural cycles

4
Containing the Disaster
  • Zone of Alienation (30 km Radius).
  • A large concrete slab placed underneath the
    reactor to prevent radioactive material leaching
    into the groundwater.
  • Measures to cultivate clean products/food
    stuffs in contaminated areas.
  • Combining lime, with manure and mineral
    fertilisers effective in reducing caesium content
    by a factor of 30.
  • Prussian blue.
  • Radical Improvement.

5
Radical Improvement
  • Most effective countermeasure for coping with
    radioactive contamination from the nuclear
    fallout.
  • Involves the ploughing, reseeding and application
    of NPK fertilisers (Nitrogen, Phosphorus,
    Potassium) and lime.
  • Ploughing diluted radioactive contamination in
    upper layers of soil where plant roots absorb
    their nutrients.
  • Fertilisers increased plant production, therefore
    diluted the radioactivity in the plant.
  • Repeated fertilisation was needed at some sites.
  • Reduction by a factor of 2-4 in soil plant
    transfer of strontium-90.

6
Alternative Measures
  • Using plants to modify the environment by
    absorbing strontium-90 and caesium-137
    (Phyto-Remediation)
  • The Plants absorb the harmful radioactive waste
    and through chemical process transform it into
    less harmful waste.
  • Accumulation/Extraction/Degradation.
  • Sunflowers already effective, and research into
    the use of Indian Mustard Plants.
  • Plant clean ups between a tenth and a quarter of
    the cost of conventional methods.

7
Chernobyl Today / Tomorrow
  • Last operating reactor at Chernobyl was
    permanently shut down on 14th December 2000.
  • Original sarcophagus currently being stabilised.
  • Construction contract for NSC (New Safe
    Confinement) will be awarded this year.
  • Once NSC built, removal of original sarcophagus
    will take place.
  • Fuel removal of reactors 1 to 3.
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