Radioactive contamination

News Highlight

Emerging hazard: Radioactive contamination is increasingly found in scraps for recycling, says the UN body.

Key Takeaway

• According to annual data on illicit nuclear trafficking, radioactive materials or tainted equipment are entering the thriving scraps recycling cycle, posing a serious health risk.
• Other radioactive materials are released by the International Atomic Energy Agency (IAEA), a self-contained agency within the United Nations system.
• The most recent data was obtained from the IAEA Incident and Trafficking Database (ITDB).
• Instances of unlawful trafficking of nuclear and other radioactive materials under or out of regulatory control are reported by 143 member nations and international organisations. 
• This is part of the International Atomic Energy Agency’s Nuclear Security Plan.
• The IAEA does not divulge specific incidents to the public and instead shares broad patterns from annual reporting by participating members.

Radioactive Waste and Pollution

• About
  • Radioactive pollution is the poisoning of water and air by radioactive materials.
  • If radioactive waste is not properly disposed of, it might cause dangerous pollution.
  • The earth’s crust contains naturally occurring radioactive materials.
  • Three NORM (Naturally Occurring Radioactive Materials) series contaminate water resources: uranium, thorium, and actinium.
  • A limited quantity of radiation is present in all forms of water, but excessive radiation is hazardous to human health.
  • Radioactivity is measured in Becquerels or Curies. 
  • The Sievert unit quantifies the amount of radiation absorbed by human tissues.

Radiation

• About
  • Radiation is energy that emanates from a source and travels through space at the speed of light.
  • This energy is wave-like and is accompanied by an electric and magnetic field.
  • Background radiation is a form of radiation that is always present in all living organisms.
  • When radioactive radiation exceeds a particular threshold, biological creatures are harmed.

Sources of Radioactive Pollution

• Exposure to Cosmic Radiation
  • The earth’s outer atmosphere is constantly bombarded by cosmic radiation.
  • Cosmic radiation comprises fast-moving particles in space that can originate from various sources.
  • It includes the sun and other celestial phenomena.
  • Most cosmic rays are protons but can also be other particles or wave energy.
• Terrestrial Radiation
  • The Earth itself generates terrestrial radiation. 
  • Soil and rock contain naturally radioactive elements.
  • The primary sources are natural stocks of uranium, potassium, and thorium.
  • It emits small amounts of ionising radiation during natural decay.
  • Uranium and thorium are “ubiquitous,” meaning they can be found nearly wherever.
• Nuclear Power Plants
  • The nuclear fusion process in nuclear power plants is the primary source of radioactive waste.
  • These procedures produce radioactive wastes such as uranium mill tailings, spent reactor fuel, and other radioactive wastes.
  • They pose a significant environmental risk linked with nuclear power facilities.
  • These elements can remain radioactive for thousands of years and are hazardous to human health.
• Nuclear Waste Handling and Disposal
  • Over time, nuclear waste treatment and disposal can result in low to medium quantities of radioactivity.
  • Radioactivity can pollute and spread throughout the environment, including the air, water, and soil.
  • As a result, their consequences may be difficult to recognise and predict. 
  • Furthermore, specific nuclear waste disposal locations may go undiscovered.
  • The major issue with radioactive waste is that it cannot be chemically or biologically destroyed.

Measures to Control Radioactive Pollution

• Proper Method of Disposing of Radioactive Waste
  • Radioactivity is still present in radioactive waste.
  • As a result, it cannot be discarded in the same way conventional waste can.
  • It cannot be buried or burned. 
  • Due to the danger of seepage, this waste should be stored in big, thick concrete containers.
  • Because storage may not be feasible, another option is to dilute the radiation.
• Proper Labeling
  • Any radioactive material must be labelled with the necessary precautions mentioned on the label’s content.
  • This is because even minor interactions with radioactive material might allow radiation to enter the body.
  • Such items should be prominently labelled in containers to urge the use of protective equipment when handling them.
• Prohibition of Nuclear Tests
  • Any radioactive material must be labelled with the necessary precautions mentioned on the label’s content.
  • This is because even minor interactions with radioactive material might allow radiation to enter the body.
  • Such items should be prominently labelled in containers to urge the use of protective equipment when handling them.

Conclusion

• Controlling radioactive pollution is critical at individual and governmental levels. 
• Using radiation protection, correct labelling, and suitable storage and disposal are just a few examples. 
• All places that use potentially hazardous levels of radioactive material require additional security measures immediately. 
• Through research programmes and incentives, the greatest preventive approach to dealing with this type of pollution may accelerate the development of low-cost substitutes for radioactive materials in various applications.

Pic Courtesy: Education Dazzle

Content Source: Down to Earth

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