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Uranium enrichment: A scientific process with global security implications

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Understanding the basics

What is uranium enrichment?

To grasp uranium enrichment, we must first understand isotopes. All elements are defined by the number of protons in their atoms. However, elements can have versions with varying neutron numbers, known as isotopes.

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Uranium, the heavy metal used in both power generation and nuclear weapons, naturally exists mainly as two isotopes:

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Uranium-238 (U-238) – 99.27% abundance

Uranium-235 (U-235) – only 0.72% abundance

Here’s the catch: only U-235 is fissionable, meaning it can sustain a chain reaction. This is why enrichment is vital—it increases the proportion of U-235.

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The science of enrichment

Enrichment involves increasing U-235 concentration while reducing U-238. The most widely used method today is the gas centrifuge technique. Here’s how it works:

Low enriched uranium (LEU): 3–5% U-235 — used in power reactors

Highly enriched uranium (HEU): ≥20% U-235 — potential weapon material

Weapons-grade uranium: Rs 90% U-235 — used in nuclear bombs

From energy to arms: The dual-use dilemma

While nuclear power plants rely on LEU, nuclear weapons require uranium enriched to far higher levels. Once a country has the technology to enrich uranium for energy, the same tech can be pushed further for weapons. This is the heart of global concern over nations like Iran, which has enriched uranium up to 60%—a level from which moving to 90% is technically easier. Thus, uranium enrichment is not just a scientific process; it’s a strategic capability that shapes geopolitics.

 

Uranium enrichment in India

 

Civil Services preparation questions

Short answer questions

  1. What is meant by the term uranium enrichment?
  2. Why is only uranium-235 used in nuclear fission reactions?
  3. What distinguishes low-enriched uranium from highly enriched uranium?

Long answer questions

  1. Explain the process of uranium enrichment using gas centrifuge technology. How does this process pose a dual-use challenge for the international community?
  2. Discuss the implications of uranium enrichment in the context of global non-proliferation efforts. What are the challenges faced by the IAEA in ensuring compliance?
  3. Critically examine India’s approach to uranium enrichment and its implications for regional security and energy independence.

Analytical/essay-type questions (CS Mains style)

  1. “Uranium enrichment lies at the intersection of energy security and nuclear weapon proliferation.” Discuss in the context of international diplomacy and national sovereignty.
  2. India's non-signatory status to the NPT offers both strategic autonomy and international scrutiny. Evaluate how this impacts its uranium enrichment programme
  3. “The science of isotope separation is not just a technological feat—it is a geopolitical trigger.” Discuss the role of nuclear technology in shaping 21st-century diplomacy.
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